Directory of Robotic 3D Printing Companies
Zeisberg Carbon GmbH is a specialist in Large Scale 3D Printing and CNC Machining, offering comprehensive solutions from CAD design and FEM simulation to final production. They are home to Germany's largest 3D printer for engineering thermoplastics, capable of producing components up to an impressive 6,000 mm in length for large-format additive manufacturing projects. Beyond immense sizing capabilities, their expertise extends to high-performance applications, producing critical parts like anti-ballistic Kevlar® sandwich plates and light-weight carbon composite components with integral design. The company is a key supplier in demanding sectors such as aerospace & defense and motorsports, where their components are trusted in championship-winning race cars at events like Le Mans and the Nürburgring. By providing complete in-house services, including tooling, CAD, and CAE, Zeisberg Carbon positions itself as one of the most competitive and reliable players in the market for advanced fibre-reinforced plastics.
SORTEC EUROPE s.r.o. operates as a dedicated design studio and high-capacity production facility, proudly serving as the official distributor of advanced SinuCraft robotic 3D printing solutions. We specialize in large-scale additive manufacturing and hybrid CNC production, offering the fast, accurate, and cost-effective creation of complex, large-format parts. Beyond our cutting-edge manufacturing services, the company has operated since 1991 as a trusted specialist in the import, conversion, and distribution of TV and satellite signals. Our comprehensive service model includes wholesale, retail, installation, and technical support, establishing us as a complete system integrator for operators, broadcasters, and hotel chains. This blend of historic technical expertise and modern robotic manufacturing ensures we provide truly comprehensive solutions to our customers.
Sydney Composites is a leading Australian private company specializing in advanced composite design, engineering, and manufacturing, with a foundation built on years of industry expertise since 2016. While known for high-end aerodynamic components for race cars, our versatile team extends its services across diverse industries including renewable energy, marine craft, rocketry, and construction. Our expertise includes a dedicated Parametric Design Consultancy, where we leverage computational design to explore complex forms and generate optimal, data-driven design variations. We complement this with high-quality Architectural Printing Services and advanced in-house manufacturing, utilizing large-capacity ovens and materials like Carbon Fibre, Glass, and Aramid to produce precise composite structures. By continually updating our techniques and collaborating with prestigious universities on innovative projects, we ensure every product is manufactured with structural integrity and an aesthetically beautiful finish.
REDU is a leading Research Institution and University based in Rovaniemi, Finland, committed to advancing industrial manufacturing. We specialize in advanced Large Format Additive Manufacturing (LFAM) and offer comprehensive robotic 3D print services. Our core mission is to bridge the gap between research and industry by inviting companies to participate in our ongoing LFAM projects. This collaboration enables partners to create and validate innovative workflows, rapidly test and prototype new ideas, and obtain critical initial results. By leveraging our cutting-edge technology, we help businesses transition from traditional production to new, highly sustainable, and efficient manufacturing methods, ensuring a more modern and competitive future.
UNSW is a leading research and teaching powerhouse based in Sydney, Australia, recognized globally for its commitment to excellence and innovation. As a premier university, UNSW drives advancements across various disciplines, including cutting-edge manufacturing technologies. Specifically, the institution provides crucial access to advanced robotic 3D print capacity to foster hands-on learning and pioneering research. This state-of-the-art technology is fully integrated into the academic structure, making it available to students through dedicated undergraduate courses and intensive postgraduate research programs. This deep commitment ensures that the next generation of engineers, designers, and scientists is equipped with the necessary tools and experience to lead future industrial and technological advancements.
TSI AdditiveLab is a dedicated Research and Development unit within the Transport and Telecommunication Institute in Latvia, specializing as the only facility of its scale in the Baltic States focused on Wire-based Additive Manufacturing (WAM) solutions. We focus on large-scale wire-based metal robotic 3D printing, utilizing technologies like Wire Arc and Wire Laser to rapidly manufacture complex, high-quality industrial parts from materials including aluminum, nickel, and steel alloys. Beyond printing, our core expertise is in industrial automation and developing custom software that enables precise path planning, geometry control, temperature management, and overall process optimization for our systems. This unique blend of academic research and practical application allows us to connect innovative knowledge directly with industrial needs across transport, aerospace, and general manufacturing sectors. Partner with our experienced team and leverage our state-of-the-art robotic equipment to achieve faster lead times, reduced costs, and superior quality in your next manufacturing project.
ErectorBot operates at the intersection of professional manufacturing, advanced design, and immense large-scale additive manufacturing (LFAM). Led by Founder and CTO Leonard Dodd, a pioneer in LFAM robotics, the company delivers custom prototyping, production-ready solutions, and manufactures large-format 3D gantry systems for complex projects. Our expertise spans deep knowledge in composites, direct metal deposition (DMD), and large-format 3D printing, enabling us to rapidly translate ambitious concepts into precise, functional builds for the transportation, design, and maritime industries. Uniquely, ErectorBot systems utilize highly cost-effective plastic pellets/granules through the specialized "Erecto-Struder," cutting costs significantly over traditional filament-based printing. Furthermore, our robust, open-source gantry machines are built for versatility, capable of being easily transformed into large-sized CNC machines for subtractive processes using various tool heads, including plasma cutters, routers, and welders.
One Off Robotics (OOR), a leading System Builder based in Chattanooga, United States, designs and delivers advanced, turnkey robotic manufacturing systems to elevate industrial capabilities. We provide custom, large-format robotic metal additive systems, alongside hybrid additive plus subtractive machining cells, automated cladding, and sophisticated repair platforms. Our solutions are comprehensive manufacturing systems, built with enterprise-grade industrial controls and open architectures for secure deployment, long-term scalability, and seamless integration into existing infrastructure. Beyond the hardware, OOR offers a full suite of advanced services, including digital twin simulation, virtual commissioning, complex sensor integration, and robust data and traceability pipelines. We ensure customer success through full system engineering, process development and qualification support, operator training, and continuous lifecycle support for all large metal component manufacturing needs.
SinuCraft s.r.o. is an innovative Czech engineering company specializing in the development and production of multifunctional robotic CNC machines for next-generation manufacturing. Our core competency is combining high-payload industrial 6-axis robots with interchangeable heads for both Large Format Additive Manufacturing (LFAM) via our SinuPrint line and high-precision CNC machining through SinuMill. The SinuPrint systems are capable of rapid, large-scale 3D printing, with extended models offering build volumes up to 8,000 × 2,000 mm for massive industrial projects using advanced composite materials. Our unique Hybrid Solutions integrate 3D printing and milling in a single workstation, allowing the robot to first layer material and then machine it to achieve the final shape and superior surface quality. This seamless process reduces production times by up to 30% compared to traditional methods, delivering powerful and cost-effective results to demanding industries like aerospace, automotive, and shipbuilding, all powered by the reliable Siemens SINUMERIK ONE control system.
Chime Performance Polymers, established in 1999, is an experienced material provider in India specializing in high-performance engineering polymers. Beyond being a distributor of renowned polymer brands, we are dedicated to developing advanced material solutions for additive manufacturing. We specialize in formulating fiber-reinforced raw materials explicitly for Large Format 3D printing using Fused Granulated Fabrication (FGF) technology. Our compounds are engineered to ensure warpage-free printing, minimal shrinkage, and superior, smooth surface finishes for intricate and robust structures. Our best-selling products include high-quality compounds such as Carbon Fiber filled ABS, Glass filled PETG, and smooth surface finished Polypropylene, tailored for industrial and interior design applications.
Sunnyday Technologies is pioneering the future of construction through advanced engineered cement composites and 3D concrete printing services. Our proprietary approach allows us to optimize materials for digital fabrication, reducing cement use by up to 25% while significantly enhancing structural performance. This innovation is powered by our CEMFORGE™ mix engine, a data-driven software that integrates computational formulation with physics-driven design to produce lighter, stronger, and more efficient structures. We provide specialized consulting to help clients navigate the complex landscape of 3D concrete printing, delivering expert insights to drive successful projects. Furthermore, we maintain extensive specialty material databases to develop unique concrete formulations for niche applications, including bio-compatible, heat-resistant, and geopolymer cements.
AKRO-PLASTIC GmbH is a long-standing German chemicals company specializing in plastic compounding, operating under the Feddersen Group since 2004. With a history spanning some 30 years, the company has accrued a wealth of knowledge and experience in innovative and application-oriented plastic compounds. Located in Niederzissen, Germany, AKRO-PLASTIC is recognized as a Material Provider, particularly offering technical compounds for FGF (Fused Granular Fabrication) robotic 3D printing. Their product line includes specialist compounds such as AKROLOY PARA, which offer benefits like high stiffness, strength, and low warpage, making them suitable alternatives for aluminum and zinc diecast alloys. As experts in plastic compounds, AKRO-PLASTIC focuses on delivering tailored solutions for parts requiring high dimensional stability and superior thermal properties.
Helio Additive empowers manufacturers to achieve reliable, high-quality, and efficient 3D printing through its cutting-edge software solutions. The company's key product, Dragon, is a physics-based simulation and optimization engine specifically designed for extrusion 3D printing. Dragon predicts thermal behavior at the voxel level and automatically adjusts print settings, ensuring first-time-right results to minimize waste and defects while improving layer bonding. This no-code platform uses first-principles physics to optimize the printing process, helping companies reduce costs and increase the efficiency of their additive manufacturing operations. Founded in 2020 by CEO David Hartmann, Helio Additive is based in China and focuses on providing software for optimizing 3D printing workflows.
SAMYLABS is an innovative company specializing in the design, manufacture, and commercialization of metal 3D printers using advanced laser beam powder fusion (LPBF) technology. Our core mission is to make high-quality metal 3D printing accessible by significantly reducing the costs associated with laser fusion technology, thereby enabling small companies, training centers, and universities to realize their projects. A key competitive advantage is our complete technological development, including proprietary slicing and control software, SAMYLABS STUDIO 5.0, which allows users to quickly calculate printing paths, monitor process variables in real time, and even change parameters while the machine is printing. This integrated software supports functions like calculating trajectories, internal filling structures, and supports, optimizing the printing process for speed and quality. Based in Derio, Spain, SAMYLABS offers robust solutions like the ALBA series, combining power, speed, and ergonomics for industrial additive manufacturing environments.
Aibuild provides cutting-edge slicing and print preparation software designed specifically for robotic and gantry large format additive manufacturing systems. This platform is hardware-agnostic, supporting a wide range of industrial technologies including polymer extrusion, metal Directed Energy Deposition (DED), Wire Arc Additive Manufacturing (WAAM), cold spray, concrete, and paste extrusion. The software delivers fully automated toolpath generation, enabling advanced automation of the additive manufacturing process to make slow, error-prone production fast, predictable, and repeatable. Clients using Aibuild report significant efficiency gains, such as 86% faster toolpath generation and a 65% reduction in failed builds. For maximum flexibility, the enterprise-grade solution can be deployed as a cloud-connected platform for collaboration or as an off-grid desktop application for enhanced security.
Layer Performance GmbH, based in Aachen, Germany, specializes in the development of advanced process software for Additive Manufacturing. We create intelligent slicing software that generates three-dimensional machine paths for all material-extruding 3D printers, ranging from FDM machines to industrial robots. Our innovative solution enables non-planar 3D printing, which moves beyond conventional 2.5D printing to produce high-quality, high-performance end components with superior strength and smooth surfaces. By leveraging all available machine axes and offering adaptive strategies, Layer Performance allows for reliable processes and significant material savings, helping businesses integrate AM into their existing production lines and unlock new possibilities like mass customization. We are committed to enabling rapid 3D printing of parts with unmatched precision and geometric freedom at scale.
Massive Dimension, a division of Triex Inc. and located in Barre, Vermont, is a leading provider of large format 3D printers, extruders, and robotic printing cells. They specialize in turn-key robotic 3D printing solutions that are customizable to meet specific material, workflow, and part size requirements, helping businesses automate production and scale with confidence. As Extruder Providers, their offerings enable applications in furniture, home decor, circular economy initiatives, additive manufacturing in wearables, and mold making. They are committed to delivering high-quality printing projects using materials validated through rigorous testing for exceptional performance. The company’s integrated print cells are designed to reduce costs and streamline operations for industrial clients.
Xtrution specializes in manufacturing and engineering custom extruders, primarily serving the plastic industry. They offer specialized extruders tailored specifically for Additive Manufacturing (AM) 3D printing of polymers, enabling advanced large-format capabilities. These high-quality extruders are designed for seamless integration into larger industrial systems, often including robotic arms for significant, large-scale applications. Xtrution focuses on providing robust and customized solutions that meet the demanding requirements of polymer processing and next-generation 3D printing technologies. As expert Extruder Providers based in The Netherlands, they are committed to innovation in industrial AM.
Periplast is an established leader with over 40 years of experience in the development and manufacturing of polymer extrusion equipment, specializing in complete turn-key solutions for the plastic extrusion industry. The company is committed to maximizing sustainability in its offerings. Through its innovative Extrubot platform, Periplast designs and manufactures extrusion systems specifically for robotic additive manufacturing. These FGF (Fused Granular Fabrication) extruders are optimized to use recycled polymers and composite materials, facilitating sustainable and support-free large-scale 3D printing. The Extrubot system is an all-in-one box solution, incorporating the extruder, robot, and user-friendly software for printing large objects using plastic pellets at temperatures up to 400ºC.
Founded in 2015 following a pioneering research project on large-scale concrete 3D printing, XtreeE is a construction tech company based in Paris, France. We design and manufacture large-scale, multi-material 3D printers and are committed to helping the construction industry move toward its environmental transition. XtreeE provides a full-stack robotic 3D printing solution, combining industrial robotic printers with advanced extrusion systems and custom software, offering a seamless digital workflow. Our end-to-end solution includes material qualification, design support, and training for large-scale concrete extrusion with multi-axis and non-planar capabilities. This process frees architects from the constraints of linear forms, allowing them to design and realize complex shapes for architectural, construction, and infrastructural applications.
CNC Robotics is a leading System Integrator, pioneering the use of industrial robots as a highly flexible and scalable alternative to traditional machine tools. Founded in 2010, the company's mission is to boost the wider adoption of robotics and automation, enhancing customer capabilities across diverse applications. They specialize in both additive (3D printing) and subtractive (machining) manufacturing solutions. Their robotic 3D printing systems are installed in sectors such as construction, aerospace, and marine, while their machining systems outperform traditional CNC machines in industries including automotive, rail, and engineering. As specialists in robot additive and machining, CNC Robotics works with strategic partners like KUKA, SprutCAM, and CEAD Group to offer innovative, cost-effective robotic solutions for complex manufacturing challenges.
Technology Support BV is a dedicated System Integrator based in Dirkshorn, The Netherlands, serving the European region. They specialize in advanced robotic solutions, including the crucial integration and support of 3D robotic printing applications. Beyond 3D printing, their comprehensive services encompass a variety of robotics, featuring expertise in both ABB and KUKA systems. They also provide specialized technical capabilities such as PLC programming and Servo/Motion Control to ensure seamless industrial automation. Contact Technology Support BV today to explore how their specialized expertise can optimize your automation and robotic needs.
AIVOX is an innovative company that develops bespoke techniques and technologies, operating at the intersection of design, software, and manufacturing. The company's core mission is to fully automate the processes that bring ideas to life, from initial concept through to execution. AIVOX leverages cutting-edge technologies, including advanced 6-axis CNC and custom software tools, alongside innovative design methodologies to engineer new products and processes. They specialize in large-scale and multi-material robotic 3D printing, offering extensive expertise in unconventional fabrication processes engineering. This focus enables clients to streamline their operations through seamless customization and optimization.
Morroni is a cutting-edge computational design studio based in Munich, specializing in advanced robotics and additive manufacturing. We operate at the crucial intersection of architecture, design, and digital fabrication, leveraging deep expertise in DfAM (Design for Additive Manufacturing), parametric design, and automation. Our primary focus is developing custom design workflows, toolpath strategies, and generative solutions to tackle the most complex challenges across various sectors. This includes pioneering large-scale 3D-printed architecture projects, often utilizing recycled and sustainable materials to promote circular building solutions. From automotive and medical components to consumer products and industrial applications, we partner with clients globally to transform ambitious concepts into reality, also offering comprehensive consulting and workshops to help teams scale production and innovate.
PROTOTYPE 3D is an advanced design and full-service additive manufacturing company focused on pioneering the future of large-format 3D printing. We develop innovative applications across a wide range of sectors, including art, furniture, architecture, interiors, construction, and marine, utilizing state-of-the-art workflows. More than just a manufacturing service, we are an innovation partner committed to strategic design and research and development for scalable solutions. Our key research priority is circularity at the city scale, transforming local plastic waste into local materials and products to reduce shipping impact and embodied carbon. We are launching this sustainable model in Greater Vancouver with plans to replicate it globally, ensuring production is near the end consumer.
Proditecture is a leader in Design & Robotic Circular Manufacturing, dedicated to pioneering scalable, sustainable, and intelligent architectural production from its base in Coimbatore, India. Our research integrates advanced robotic and digital fabrication techniques with circular material systems. By merging parametric design, AI-driven workflows, and material innovation, we are able to fabricate architecture with precision, efficiency, and minimal environmental impact. Our focus includes developing low-carbon printable materials—such as recycled polymers, geopolymers, and hybrid composites—engineered for robotic construction at multiple scales. We continuously experiment with custom-built robotic platforms and multi-material extrusion systems, investigating new design-to-manufacture methodologies that seamlessly merge automation with artisanal quality, ultimately redefining the architectural production process as circular, intelligent, and deeply crafted.
Norsk Titanium US is the world's pioneering supplier of aerospace-grade, additive manufactured structural titanium components. Our patented Rapid Plasma Deposition (RPD®) technology transforms titanium wire into complex, near-net-shape parts using plasma torches in a clean, inert argon gas environment. This advanced Direct Energy Deposition (DED) process is monitored over 600 times per second, ensuring the material achieves the same high structural properties as traditional forgings. Compared to conventional manufacturing methods, RPD significantly reduces material waste by 50–75% and cuts lead times from many months to just days or hours, delivering substantial cost savings. We are distinguished as the first company with FAA-approved and OEM-qualified structural titanium 3D printing capabilities, supporting key clients like Boeing and expanding our high-volume production into defense, space, and other industrial markets from our Plattsburgh, NY facility.
Lincoln Electric Additive Solutions specializes in large-format metal parts using our advanced Wire-Arc Additive Manufacturing (WAAM) technology. This highly efficient process leverages our parent company's 125-year legacy in welding to deposit metal wire layer by layer using gas metal arc welding (GMAW), a method superior to powder-based systems for large-scale components. Our facilities, which hold the largest 3D metal printing capacity in North America, are capable of producing industrial parts measured in feet and meters, with builds exceeding 8 feet in height and 3,000 pounds. This capability allows us to significantly reduce lead times and material waste compared to traditional castings and forgings, delivering high-quality, near-net-shape parts to industries like energy, aerospace and defense. We work with a diverse material portfolio including steels, stainless steels, Invar, nickel alloys, and bronze to ensure your complex components are built faster and better.
MELD PrintWorks Corporation, founded in 2023 as a spin-off of MELD Manufacturing, specializes in providing high-performance, large-format metal components through its additive printing service. We leverage the patented MELD/AFSD (Additive Friction Stir Deposition) technology, a revolutionary solid-state process that uniquely bypasses the melting stage of the metal. This non-melt approach ensures our parts are fully dense, free from porosity and cracking, and possess superior forged-quality properties unmatched by traditional melt-based metal Additive Manufacturing techniques. Our ISO 9001 certified team delivers complex, high-value components for demanding sectors like aerospace, defense, and shipbuilding with significantly reduced lead times—often up to 10 times faster than other methods. By utilizing AFSD, we can print difficult-to-process materials like Aluminum 7075 and provide a critical domestic source for high-quality metal parts, shoring up supply chain challenges for our customers.
At Printerior, we are dedicated to transforming the global plastic problem into innovative solutions by pioneering large-format robotic 3D printing using recycled polymers. Our proprietary Large Format Additive Manufacturing (LFAM) system employs custom-developed robotic printers and pellet extruders with an impressive 3x3x2.7m build volume, enabling the creation of one-of-a-kind architectural, interior, and industrial pieces. We commit to sustainability by producing these durable goods, including our fully customizable furniture line and client parts, exclusively from 100% recycled plastics like PLA, PET-G, and engineering-grade polymers. This approach allows us to divert up to one ton of waste plastic monthly from landfills and provide a truly circular economy business model. Beyond our unique on-demand printing bureau, we offer a range of recycled filaments and LFAM pellets, providing per unit customization for consumers and serving demanding sectors like architecture, aerospace, and manufacturing with high-quality, sustainable, and rapidly delivered products.
Welcome to HiveASMBLD, one of the world's foremost automated construction companies dedicated to solving the global housing crisis through transformative technology. We specialize in a unique hybrid building system that merges industry-leading robotic 3D construction printing for resilient structural walls with precision-engineered panelized elements for roofs and non-structural components. Our compact, advanced printer and AI-driven platform use a proprietary, low-carbon mortar to deliver cost-effective and environmentally responsible construction, setting in minutes rather than days. This integrated approach ensures faster deployment, significantly reduced waste, and structures that are stronger, highly energy-efficient, and engineered to withstand extreme weather. With pioneering projects like Zuri Gardens—Houston's first 3D-printed affordable subdivision—we are proving that innovative construction can deliver smarter, more attainable, and architecturally stunning homes at scale.
Decibel Made is revolutionizing the design industry by utilizing large-format robotic 3D printing to create sustainable furniture and architectural elements. We partner with architects, designers, and brands through our distinct services: Decibel Built offers custom fabrication for unique installations, while Decibel Made provides scalable, on-demand fulfillment for product lines. Our core mission is driven by circular design, transforming recycled and bio-based waste streams into high-quality, durable pieces. By operating with zero inventory and offering local U.S. production, we significantly reduce waste and carbon emissions compared to traditional manufacturing models. This advanced approach unlocks complex geometries and large-scale output, giving our clients the freedom to realize ambitious concepts that are both innovative and environmentally responsible.
Haddy is redefining American manufacturing by operating the world's largest AI-powered robotic microfactory, headquartered in St. Petersburg, Florida. Leveraging large-scale 3D printing and artificial intelligence, we transform design ideas into custom furniture and products in days, not months, offering unprecedented speed and design freedom. Our commitment is to a truly circular economy, utilizing infinitely recyclable or biodegradable composites, including eco-friendly materials made from waste like coffee grounds and brewery byproducts. This advanced, closed-loop recycling process ensures minimal waste, as we guarantee our products can be reprocessed into brand new items at the end of their life. Born from the team that created the world's first 3D-printed car, Haddy continues to pioneer advanced manufacturing, now expanding our high-output technology into crucial sectors like national defense and construction.
Emerging Objects is a leading, independent and creatively driven "MAKE-tank" dedicated to pioneering 3D printed architecture and innovative spaces for living and working. We specialize in pushing the boundaries of material science, utilizing multi-material printing and a wide range of additive manufacturing techniques, including SLS, FDM, 3DP, and LOM. Our unique expertise allows us to craft building components and products from unconventional materials such as locally harvested salt, unfired clay, ceramic, and recycled rubber content from tires. The company was co-founded by renowned pioneers in the field, Ronald Rael and Virginia San Fratello, who also serve as Professors of Architecture and Design, respectively. This dedication to innovation has earned us significant recognition, including the prestigious Cooper Hewitt National Design Award for Digital Design in 2025.
Neobrutal is a pioneering design technology studio dedicated to revolutionizing architectural manufacturing through large-scale 3D printing and robotics. We specialize in providing scalable mass customization solutions for the architecture industry, seamlessly combining innovative design with advanced manufacturing capabilities. Our unique integrated platform, which encompasses design, specialized hardware, and sustainable materials, allows for precise digital fabrication control. This advanced approach empowers architects to bring unique and complex structures to life at an unprecedented scale, transforming ambitious architectural visions into reality. Beyond on-demand printing and fabrication, we offer expert consulting services that include guidance on additive manufacturing integration, technology selection, and process optimization for large scale projects.
Omniform is a specialized manufacturing services provider and print bureau based in Istanbul, Turkey. The company focuses on the production of essential components, including models, molds, fixtures, and custom parts. Utilizing state-of-the-art, large-format 3D printing (LFAM) technologies, Omniform delivers advanced solutions tailored for demanding industrial sectors. They expertly combine fiber-reinforced thermoplastic materials with robotic arm-based additive manufacturing systems. This advanced methodology allows Omniform to effectively serve the automotive, marine, and aerospace mold-making industries, alongside supplying solutions for industrial furniture, composite mold production, and prototype manufacturing needs.
Alchemist is an advanced robotic manufacturing studio based in Abu Dhabi, United Arab Emirates, specializing in large-scale 3D printing services. We leverage computational design and robotic fabrication to deliver innovative solutions using sustainable polymer materials. Our services are ideal for creating striking décor, complex architectural elements, rapid prototypes, and custom interior components. Alchemist also serves diverse, high-tech industries including Aerospace, Automotive Innovation, and Biomedical Engineering, focusing on cutting-edge applications. With advanced mixing and extrusion capabilities, we offer a versatile material selection, including specialized blends like ABS/Carbon and PEEK/Carbon, tailored to meet your precise requirements.
iSCALE3D is a Switzerland-based company operating from Basel, Europe, specializing in Manufacturing Services and Print Bureaus. They offer advanced robotic 3D printing solutions, including work with composite materials and construction 3D printing utilizing cement-free concrete. Their offerings also include printing specialized components like wheels for Unmanned Ground Vehicle (UGV) platforms and agricultural machinery. Demonstrating their large-scale printing capabilities, iSCALE3D recently introduced the DISCOVER 3D, a lightweight and durable 3D-printed tiny camper, manufactured using KUKA robotic systems and proprietary software. This innovative project utilizes recycled polypropylene, showcasing the company's commitment to large-scale, sustainable additive manufacturing.
Base Materials Ltd offers a cutting-edge large-format 3D printing service, utilizing our proprietary ProXtrude® printable paste system for a smarter and faster alternative to traditional tooling methods. This advanced technology produces durable, single-piece, near-net-shape stock models without visible bond lines. Internal testing demonstrates significant efficiency gains, including up to 58% less material waste compared to conventional blocking-up methods. The resulting stock models boast enhanced structural integrity and a refined surface finish, requiring minimal CNC machining—just 10 mm—to achieve final aesthetic and tolerance standards, saving both time and resources. Our expertise extends beyond 3D printing, as we are also specialists in high-performance syntactic materials for demanding industries like automotive, aerospace, and motorsport.
Reform3d is a groundbreaking manufacturing services and print bureau company, headquartered in North Albury, Australia. Founded by the visionary Des Hogan, Reform3d specializes in advanced robotic manufacturing solutions. They leverage cutting-edge robotic 3D printing cells to provide high-quality, customized outputs for a variety of industries. As an Australian company based in Albury, NSW, they serve the Oceania region with specialized additive manufacturing capabilities. Reform3d is dedicated to expanding its reach and helping clients innovate through sophisticated robotic 3D printing technology.
LAMA is dedicated to advancing large-format additive manufacturing through a commitment to sustainability and circular design. We specialize in using recycled polymers and environmentally responsible materials to drive innovation. Our research focuses on the intersection of robotics, circular design, and advanced fabrication methods to create production systems that are both scalable and environmentally responsible. A key part of our approach is optimizing integrated designs and techniques within the additive manufacturing process to substantially minimize material use and enhance the re-cyclability of the produced designs. By redefining material life cycles, LAMA promotes innovation in fields like sustainable architecture, urban infrastructure, and furniture design.
Fab.Pub is a digital fabrication bureau pioneering the future of manufacturing by making large-format 3D printing and advanced design technologies accessible to everyone. We specialize in using robot arms and granulated plastics, including sustainable and recycled materials, to create custom architectural and large-scale design projects. Serving as an "urban factory," Fab.Pub allows people and companies to book machines online and commission customizable projects, turning consumers into "prosumers" highly involved in the creation process. Beyond robotic 3D printing, the company also offers laser cutting, clay slip casting, and design collaboration tools, providing expertise in sustainable materials to help architects, designers, and businesses bring their most ambitious ideas to life. Our mission is to design internationally while producing locally, actively participating in the transition to a circular economy.
Norco Composites Limited is a premier composite manufacturer offering a complete service from design and engineering through to parts manufacturing and final assembly. With over 30 years of experience in GRP and composite engineering, the company provides bespoke, high-quality composite solutions tailored to meet strict customer requirements regarding weight, strength, stiffness, and budget. Their advanced services include the large-format reinforced polymer printing of jigs, fixtures, tools, and end-use components, complemented by post-printing machining, finishing, and painting. Norco operates with a quality focus, holding important certifications such as AS9100D, ISO-9001, and ISO-14001, and the UK government Cyber Essentials accreditation, ensuring consistently high standards. They deliver lightweight composite structures for clients across the globe in various industries, managing both small and large-scale projects effectively.
Factory Of Us is an innovative Manufacturing Services and Print Bureau based in İstanbul, Turkey, specializing in cutting-edge robotic 3D printing technology. We provide comprehensive services covering Design, 3D printing, and Architecture. Taking an innovative approach to sustainable production, Factory Of Us is revolutionizing the furniture industry with personalized design services and eco-friendly manufacturing processes. Our first studio in Istanbul, Bahçelievler, serves as both a showroom and an integral part of our design process, allowing visitors to discover how we create functional and aesthetically pleasing furniture. Committed to sustainability, every piece is built to last while ensuring that production is environmentally friendly.
ALPAXA 3D, based in Konya, Turkey, specializes in reliable contract manufacturing services tailored for both industrial production and custom design projects. We offer comprehensive 3D printing, laser cutting, and UV printing capabilities to meet diverse creative and functional needs. Our 3D printing service produces functional parts, prototypes, jigs, and fixtures with high precision and attention to detail. Additionally, we provide laser-cut components, panels, and enclosures, alongside UV-printed promotional and display materials, serving industries like machinery, automotive, and architecture. We pride ourselves on fast production timelines, cost-effective low-volume manufacturing, and robust engineering support to bring your idea to life, from initial prototype to final production.
Polyproducts B.V. / ENLARG3D is a specialist in composite solutions, offering complete services from initial product idea through to realization. While renowned for large composite part fabrication, the company is deeply involved in advanced manufacturing for large structures. Their expertise extends to integrating large-format robotic composite 3D printing, often utilizing granulate or pellet-based methods for producing complex tooling and final parts. Poly Products emphasizes engineering excellence in every detail, specializing in product design, tooling, and precision manufacturing of engineering plastic components. This dedication ensures clients benefit from features like significant weight savings, increased durability, and lower installation and maintenance costs.
The New Raw is a research and design studio based in Rotterdam, The Netherlands, specializing in transforming plastic waste into high-quality, sustainable furniture and unique urban artifacts. They utilize advanced robotic 3D printing technology to create their products, ensuring both innovation and craftsmanship. This layer-by-layer approach enhances the natural textures of the recycled material, celebrating its transformation into functional and tactile objects. Every piece, which includes items like street furniture and the "Elements" collection, is designed to be long-lasting and fully re-recyclable, effectively closing the waste loop. Operating as a production company and a print bureau, The New Raw demonstrates how sustainability and cutting-edge digital craftsmanship can go hand-in-hand, creating products made on demand in their Rotterdam facility.
Royal3D is a leading additive manufacturing service company based in Rotterdam, The Netherlands, specializing in large-scale 3D printing. We utilize some of Europe's largest 3D printers, including the CEAD CFAM Prime and an ABB robotic arm track printer, to deliver robust structures. Our advanced technology allows us to produce a wide range of products from recycled and recyclable thermoplastics, supporting sustainability while minimizing waste. Beyond on-demand additive manufacturing, we offer comprehensive engineering services ranging from conceptual design studies to 3D modeling tailored to our clients' unique project needs. With expertise across industries like architecture, maritime, and design, Royal3D provides scalable solutions that transition projects seamlessly from concept to finished product.
RAW IDEA is a leading manufacturing service and print bureau based in The Netherlands, specializing in advanced large-scale robotic 3D printing and hybrid manufacturing. They operate two industrial-grade 3D printing systems, with a third currently in development, designed for high-precision, heavy-use production, often utilizing fiber-reinforced plastics. Their technology includes an ABB IRB robotic arm with a custom extruder and the CEAD Flexbot (a Comau robotic arm with a Siemens Sinumerik controller), which allows for the creation of very large structures, such as 5-meter boats, in just a few days. The CEAD extruders are built for 24/7 production, ensuring fast, consistent, and high-quality results. RAW IDEA is committed to sustainability, integrating circular economy principles into their breakthrough solutions and offering rapid prototyping to refine designs before production.
ShapeService is a leading large format additive manufacturing provider, leveraging extensive experience in both Fused Deposition Modeling (FDM) technology and architectural design. We specialize in producing robust, circular, and cost-effective products for a multitude of sectors, including construction, furniture, infrastructure, offshore, and interior design. Our commitment is to co-create innovative solutions, utilizing large-scale FDM expertise to meet demanding project requirements. By focusing on circularity, we help companies reduce waste and enhance sustainability within their supply chains. Located in Nieuwendijk, The Netherlands, ShapeService is your strategic partner for transforming ambitious large-scale designs into physical reality.
SAINT-GOBAIN WEBER offers specialized 3D concrete printing services, enabling the creation of components that are challenging or impossible to produce using conventional construction methods. This cutting-edge service brings complex structures, organic shapes, and unique elements—like concrete slope stairs or artistic objects—from concept to life. As a pioneer in the field, Saint-Gobain Weber opened Europe's first concrete printing factory in 2019, which has since produced many iconic structural projects. Furthermore, this 3D printing technique significantly contributes to sustainability, achieving a 40-60% CO2 reduction compared to traditional construction by printing concrete only where necessary and eliminating the need for reinforcement. We guide our clients through every step, from initial design to final delivery, ensuring perfect project execution.
Based in Friesland, IMPACD Boats focuses on innovation and a truly sustainable experience on the water. Their sloops are revolutionary, being 3D printed from recycled materials, such as PET bottles, which ensures a clean, green future. This exemplary approach represents a significant paradigm shift in the nautical industry, as the boats are also designed to be 100% recyclable at the end of their lifespan. Founded by Marieke de Boer and Jörgen de Jong, the company aims to tackle the problem of abandoned boats by offering a sustainable alternative that can be repeatedly transformed into new vessels. By choosing IMPACD Boats, you are making a difference and contributing to a cleaner, more sustainable environment.
Holit is your dedicated Additive Manufacturing Partner, specializing in large-scale production using advanced robotic 3D printing technology. Utilizing plastic pellet-based extrusion systems (FGF), we provide contract manufacturing services for functional prototypes, molds, and end-use parts. With over 13 years of experience in 3D design and printing, we offer bespoke solutions across various technologies, including FDM/FFF, SLA, SLS, and SLM, in addition to FGF. Our expertise covers custom toolpath generation, process optimization, material testing, and design consultancy (DfAM) to ensure optimal printability and performance for demanding applications. Holit is committed to offering competitive prices and shorter delivery times, making us the perfect partner from design and prototyping all the way to final production.
HB3D specializes in 3D robot printing, providing comprehensive services from initial product development through to full-scale production. Possessing deep expertise in materials, plastic extrusion, robotics, and CAD-CAM automation software, they offer both production services and the development of their own advanced systems. They focus on large-volume prints utilizing robotic technology and promoting circular production by using recycled thermoplastics. HB3D serves as a single partner for engineering, prototyping, and production, creating smart designs for large, functional objects without the need for molds. Their services are applicable across various sectors, including construction, maritime, interior design, and art.
Aectual pioneers XL 3D printing technology, revolutionizing the creation of architectural and interior products through large-scale customized solutions. Based in Amsterdam, The Netherlands, they use faster-printing robots and a proprietary high-capacity extruder to deliver exceptional speed and accuracy. Their advanced 3D printing system incorporates a robotic arm with six degrees of freedom, allowing them to print across expansive areas for massive single prints. This approach utilizes Fused Granulate Fabrication, a waste-free process that minimizes material use and enables full recyclability across their product line. Aectual offers production services for an array of circular interiors, including wall panels, partition screens, furniture, and lighting, empowering architects and designers to easily customize and order 3D printed products.
Nedcam, based in Heerenveen, The Netherlands, specializes in large-format 3D printing services, utilizing granulate (pellets) and large industrial robots for applications across various sectors. They offer manufacturing services and operate as a print bureau, focusing on creating large-scale objects such as molds, tooling, and design pieces using polymers. Notably, Nedcam incorporates sustainability by realizing 3D models from fully recyclable or already recycled thermoplastics, aligning with a circular production process. Their in-house facilities include high-quality CNC machines up to 26 meters in length, alongside advanced large-scale 3D printers like the Fanum XXL, which boasts a 12m printing range and can print over 50 kg per hour. Nedcam's project experience spans marine, infrastructure, transportation & automotive, and composite applications, demonstrating their versatility in large-scale additive manufacturing.
Neolithic is an industrial 3D printing hub, specializing in robotic 3D printing of building and civil components using concrete, stone, and clay. We deliver high-quality, mass-customizable products with optimized digital workflows, enabling quick and on-demand production. Our focus is on sustainable solutions, minimizing material waste, and offering a broad variety of materials suitable for your specific needs. From 3D-printed stairs for engineered slopes to innovative fish hotels that promote healthier ecosystems, we are driving positive change in the construction industry through robotization and digitization. Headquartered in Haarlem, The Netherlands, Neolithic is committed to transforming current construction processes to be more efficient and environmentally responsible.
3D Makers Zone (3DMZ) is a leading hub for digital transformation, strategically located in Haarlem, The Netherlands, within the Amsterdam Metropolitan Area. Dedicated to driving innovation, 3DMZ accelerates digital transformation through the application of advanced technologies such as industrial 3D printing, 3D scanning, Artificial Intelligence, and the Internet of Things. Housed in a former industrial facility transformed into a creative and technological space, they offer essential Manufacturing Services and Print Bureaus. The facility is equipped with a wide range of large and small industrial 3D printers, robot arms, and 3D scanners, providing production capacity for prototypes and large-scale additive manufacturing projects using techniques like FFF and related extrusion. Their mission is to facilitate innovation and provide access to cutting-edge digital production techniques for industry-wide adoption.
10XL specializes in robotic, large-format 3D printing, focusing on creating big, functional products quickly and efficiently. The company operates with a strong commitment to the circular economy, utilizing custom-built machines and materials that are 100% circular, including Post-Consumer Waste (PCW), End-of-Life (EoL), or biobased plastics. This innovative approach allows 10XL to realize complex projects like bridges, boats, and custom furniture, offering tailored solutions to industries such as maritime, furniture design, and public space. They are pioneers in large area additive manufacturing, achieving measurable results like an average 60% reduction in CO2 compared to conventional production methods. Through co-creation with partners, 10XL supports the entire process from concept to series production, ensuring high-quality, reusable products that minimize environmental impact.
SAEKI is a pioneer in large-format additive manufacturing, specializing in complex geometries and mission-critical parts. They operate autonomous factories that integrate 3D printing with subtractive processes like milling and robotic inspection for end-to-end manufacturing. Their on-demand services include 3D-printed composite tooling using robotic systems and materials like plastic (PP, PEI) and composites. Based in Switzerland, SAEKI leverages advanced robotics and proprietary technology to simplify and accelerate the production of large parts for customers across Europe, ensuring high quality and resource efficiency. By combining additive and subtractive manufacturing, SAEKI unlocks new frontiers in production quality and consistency.
Meshrōm, based in Taichung, Taiwan, operates as a specialized manufacturing service and print bureau. We are dedicated to empowering local designers by providing the advanced capabilities of robotic 3D printing. Our core mission is to help clients move beyond traditional design and construction limits, fostering innovation in their projects. By leveraging automation and sustainable practices, Meshrōm ensures that local projects remain competitive and aligned with the latest global industry trends. This commitment allows designers to realize complex geometries and unique structures that would be impossible using conventional methods.
Tec3D is your trusted partner for cutting-edge additive manufacturing technologies, enabling efficient and tailor-made production for every business. We specialize in turning ideas into physical reality, whether it's designing a custom part to meet a specific need or recreating a hard-to-find component. Our expertise as a print bureau ensures high-quality results and a streamlined manufacturing process from start to finish. We are committed to working closely with our clients and partners, positioning ourselves as craftsmen of a sustainable revolution. Together, we are building a more innovative and responsible future through advanced 3D printing solutions.
WAAMLABZ, based in Trollhättan, Sweden, is a Manufacturing Service and Print Bureau specializing in robotic 3D printing. The company focuses on providing advanced Wire Arc Additive Manufacturing (WAAM) technology. They develop specific WAAM recipes and integrated systems designed for efficient, on-demand production. Located at Nohabgatan 18A, 461 53 Trollhättan, WAAMLABZ serves as a key contributor to the European manufacturing sector. They aim to deliver innovative WAAM solutions to meet the demanding needs of modern industry.
SCULPTUR is a Swedish company specializing in large-scale additive manufacturing (3D printing) and circular transition, committed to reshaping the future of production. We have perfected our design and technology, enabling the creation of advanced prototypes and more cost-effective products. Our mission is to simplify the process of working with 3D printing, utilizing some of the biggest printers in the world. We actively partner with industry leaders like ABB, Stora Enso, UPM, and RISE to drive innovation in the fast-moving AM industry. Together with Spectrum Technology, SCULPTUR develops customized systems for in-house AM production, providing solutions ranging from prototypes to mass production for various businesses.
Nagami is a Spanish design studio established in 2016, pushing the boundaries of imagination in design and architecture through innovative, large-format robotic 3D printing. We specialize in transforming spaces by creating furniture, interiors, and architectural elements using cutting-edge technology. Our core commitment is to sustainability, utilizing pellet-based extrusion with recycled and recyclable plastics to ensure our production is environmentally responsible and often carbon-neutral. This process allows us to create distinctive, unique, and sustainable pieces, moving from waste to beauty. Nagami offers comprehensive design and production services for custom projects, setting a benchmark for circularity in modern production.
Movecho is a Portuguese-Swiss company established in Nelas, Portugal, in 1989, specializing in custom-made luxury furniture and interiors. We offer integrated solutions that combine sophisticated design, expert craftsmanship, and cutting-edge robotic manufacturing, ensuring the highest quality and reliability for every project. Our commitment to innovation includes operating a KUKA robotic arm with a pellet extrusion system for large-format 3D printing of recycled plastics. This advanced technology allows us to create complex geometries for custom architectural, luxury retail, and hospitality projects. Focused on Industry 4.0, Movecho is dedicated to delivering innovative, sustainable, and cost-effective solutions while maintaining flexibility and responsiveness to unique client challenges.
LaMáquina is an advanced manufacturing center in Barcelona, Spain, specializing in large-scale robotic 3D printing services. They prioritize sustainable and innovative solutions by utilizing bio-based composites and recycled technical polymers, with or without fibers. Their expertise extends across design, architecture, and industrial applications, offering services such as engineering, parametric solutions, and digital fabrication. LaMáquina has worked on inspiring installations, including projects showcased at the Natural History Museum in London and collaborations utilizing innovative, nature-based materials like PURE.TECH, which helps adsorb harmful greenhouse gases. They are dedicated to pushing the boundaries of 3D printing technology and sustainable manufacturing practices.
PIXOM is a pioneering design brand founded by Portuguese entrepreneurs Armando Alves and Le Brimet, specializing in 3D printing, robotics, and generative design. They focus on turning pixels into atoms, creating sustainable and extraordinary objects like furniture, lighting, and accessories, which are designed by humans and manufactured by robotic arms. The brand’s philosophy embraces (Re)Generative design, artificial intelligence, and computational design to connect matter, material, and materiality in a conscious and innovative way. By seamlessly integrating these advanced technologies, PIXOM is dedicated to humanizing technology and establishing a legacy that improves people's lives. This commitment to innovation and sustainability defines their DNA, setting a new standard for aesthetic sense and technological essence in the design world.
LOWPOLY is a pioneering design and manufacturing studio based in Madrid, Spain, specializing in sustainable material development and advanced robotic 3D printing. We enable everyone to transform their ideas into innovative products and solutions, regardless of scale, through custom R&D and high-quality production services. Our core mission involves responsible fabrication practices, utilizing recycled plastics, biomaterials, and clay to create environmentally conscious products. We are leaders in the research and manufacture of sustainable materials, including innovative composites like SCG LOWIMPACT polymer, created by turning coffee waste into 3D printed materials. Furthermore, our services extend across various sectors, including rapid prototyping, industrial part design, and 3D printing in ceramics.
Gardna 3D, based in Poznań, Poland, is a leading provider of innovative manufacturing services, specializing in robotic 3D concrete printing. The company excels in custom concrete printing using robotic arms to create intricate architectural and structural elements for various construction projects. Beyond production, Gardna 3D is deeply involved in research and development, offering support for printable mix formulation, fiber reinforcement integration, and automation solutions. They also provide comprehensive prototyping services, producing high-quality concept models, demonstrators, and prefabricated components. As an agile print bureau, Gardna 3D leverages cutting-edge technology to redefine construction possibilities in Europe and beyond.
REV3RD specializes in Large Scale Additive Manufacturing, offering a revolutionary, quick, and cost-effective solution for creating prototypes and industrial projects using innovative and recycled materials. Their custom-built 3D printing systems, such as the RD-HUGE, utilize industrial CNC motion control systems and servo drives to ensure increased speed and reliability for industrial-grade performance. They also offer high-flow pellet extruders (including RD-M40, RD-M25, and RD-M10) that provide limitless print options using affordable feedstocks and reaching temperatures up to 500°C. This technology enables the production of large-scale 3D objects for sectors like aeronautical, automotive, and construction. Furthermore, REV3RD provides comprehensive design and manufacturing services, including large scale 3D printing, laser cutting, material testing, and consulting.
Treddy is a leading Italian company specializing in large-format additive manufacturing (LFAM) and comprehensive 3D printing and consulting services. We operate the largest LFAM production hub in Italy, utilizing three robotic arms for large-format 3D printing services. Our robotic 3D printing capabilities use granular material (pellets) to create industrial prototypes and final products from a wide variety of thermoplastics. Beyond manufacturing, Treddy offers a full spectrum of support, including specialized 3D product design, 3D scanning, and engineering services. We pride ourselves on offering personalized support, managing the entire project from design to production and post-production, ensuring superior quality, speed, and innovation for clients aiming for excellence.
At quasizero, we partner with forward-thinking companies and designers who are committed to innovation through material science. We specialize in using alternative materials, moving beyond conventional methods to reinvent product development. Our core expertise lies in the creation of biomaterial products, offering a sustainable path for manufacturing. This is achieved through our advanced robotic 3D printing process, which ensures precision, efficiency, and minimal waste. Based in Perugia, Italy, we are a trusted manufacturing service and print bureau dedicated to bringing your sustainable vision to life.
Foremost AddiTech Sdn Bhd, established in Malaysia in 2023, is dedicated to leveraging the technological advantages of Additive Manufacturing (AM) to help various industries overcome technological gaps and enhance the international competitiveness of their products. Located in Selangor, Malaysia, the company specializes as a Manufacturing Services/Print Bureau, offering industrial-grade AM services. Their comprehensive offerings include a variety of processes such as SLA, LCD, FDM, FGF, SLS, and SLM, with large build volumes up to 2m x 1.5m x 1.5m. Beyond 3D printing services and post-processing for small to large-scale production, Foremost AddiTech also provides collaborative development assistance, 3D scanning, and reverse engineering processes. The company aspires to be a benchmark in Malaysia's additive manufacturing industry, driving the transformation of traditional industries and advocating for Environmental, Social, and Governance (ESG) principles.
NUGAE specializes in Ultra Light Additive Manufacturing, leveraging industrial robots for large-format 3D printing of structural components. Our proprietary robotic 3D printing technology, developed over 10 years of research and development, is capable of extruding composite thermoplastic elements that are lightweight, strong, and highly resistant, including resistance to marine agents. We offer contract manufacturing services using an integrated software and hardware system installed on anthropomorphic robots, which includes feeding, extrusion, monitoring, and control systems. This innovative approach allows for the creation of optimized, complex shapes with reduced waste and high speed. NUGAE delivers these large, lightweight yet structural components primarily for the marine, mobility, and architecture sectors, as well as various other industrial applications.
Fluente is a young Italian company, founded in 2021, specializing in 3D-printed products made from recycled stoneware. We utilize a unique mixture composed of at least 50 per cent crushed stoneware derived from ceramic industry waste, which is mixed with virgin clay, 3D printed, and then fired at approximately 1200° C. This innovative process results in durable, timeless products, such as armchairs, stools, and vases, that are resistant to weathering and both high and low temperatures, making them perfect for outdoor use. We offer printing services using our sustainable material for architects and industry professionals, alongside the direct sale of our finished products. Our creations are designed to encourage gathering and celebrate a greener future through the use of this eternal, indestructible material.
ARCreo is revolutionizing metal manufacturing from its base in Modena, Italy, offering advanced metal 3D printing machinery and solutions. We specialize in additive manufacturing systems that utilize the precise ARC additive welding process to produce complex and large metal components with exceptional quality. Our Weld3X and Weld6X lines offer solutions ranging from 3-axis systems for precise, simple configurations to integrated 6-axis robots with large collaboration ranges (1300 or 1900 mm) for high precision and flexibility in complex metal component production. Choosing ARCreo means committing to consistent performance, increased design flexibility, and on-demand production that reduces time, costs, and waste. As a Manufacturing Services and Print Bureau, we guide companies through the digital transition by combining advanced technology, cost savings, and continuous innovation for applications from rapid prototyping to extreme customization and repair.
KEEEN is a company specializing in both sustainable industry management and advanced manufacturing services. Operating as a Print Bureau, KEEEN offers large-scale 3D printing services, primarily focusing on creating customized interior design products. Beyond additive manufacturing, KEEEN has been a leader in applying Bio-Organic Technology, an innovation that transforms natural substances into a sustainable solution for industrial management. This dual focus highlights KEEEN's commitment to both high-tech production and environmental responsibility. They are experts in successfully applying biotechnology within the industry, positioning themselves as a stronger side of green technology.
NANOO, based in Bergamo, Italy, specializes in providing cutting-edge additive manufacturing services. They utilize a hybrid manufacturing approach, combining LFAM (large format additive manufacturing) with CNC machining. This technology allows for the rapid creation of complex shapes and structures, enabling custom construction elements and non-standard parts. NANOO focuses on robot-controlled 3D printing using granular materials, including recycled plastics, to create bespoke furniture, artistic pieces, and design objects. This provides a cost-effective and sustainable solution for low-volume production of unique elements, ensuring that non-standard is their standard.
Welcome to studiobenkert, your dedicated partner for impressive large-scale 3D printing. Based in Königsberg, Germany, we combine cutting-edge technology with unparalleled craftsmanship to bring visionary designs to life. Our specialization is large-format printing, offering high-quality solutions that push the boundaries of traditional manufacturing for architects, designers, and businesses. We are driven by a passion for innovation and precision, turning your creative ideas and dreams into tangible, unique products. Together, we can realize your project, even utilizing upcycled materials for a sustainable future.
FIT Additive Manufacturing Group is a globally recognized specialist and technology leader in additive design and additive manufacturing, delivering measurable success in component manufacturing for over 25 years. Headquartered in Lupburg, Germany, the company also operates locations in Italy, Romania, and the USA, employing 250 people worldwide. FIT AG offers comprehensive services, including industrial 3D printing of prototypes, function-optimized production tools, and on-demand spare parts to reduce time-to-market and increase productivity. They are pioneers in the field, utilizing both metal and polymer additive manufacturing technologies. With expertise in advanced industrial 3D printing services, FIT ensures improved availability of spare parts and supports various services like rapid prototyping and metal and ceramic 3D printing.
Additive tectonics GmbH, based in Lupburg, Germany, specializes in large-scale robotic 3D printing services and design consulting. They are committed to innovating the construction sector by merging traditional craftsmanship with modern code and care, redefining what sustainable architecture can be. Founded by Bruno Knychalla, the company brings together experts in research, development, manufacturing, design, and production to innovate on every level. Their primary offering includes 3D-printing of large-scale components, aiming to create a sustainable and intelligent environment for the future. As a Manufacturing Services / Print Bureau, additive tectonics strives to innovate until they can truly achieve their goal of a sustainable and intelligent environment.
Recozy is a German manufacturing service and print bureau specializing in large-format 3D printing of innovative furniture and interior objects. They are deeply committed to sustainability and the circular economy, primarily using recycled plastics and composite materials sourced from Germany and the Benelux countries for their products. Their operations, which include climate-neutral made-to-order production in northern Germany, emphasize avoiding waste and maintaining short supply chains. Recozy utilizes robotic additive manufacturing to create modern and timeless design objects, ensuring custom furnishing concepts that can be reused at the end of their life cycle. By focusing on ecological and social aspects, Recozy aims to create value for the environment and society beyond traditional industry boundaries.
Daktyl offers comprehensive large-scale additive manufacturing solutions, providing expertise from initial design consultation to finished, functional creations. Our core commitment is to circularity, utilizing Fused Granular Fabrication (FGF) 3D printers based on industrial robot arms to process recycled plastic flakes and pellets, creating components up to 8 x 2 x 2 m³. We strive for sustainability by minimizing waste and enabling 100% recyclable products. Furthermore, we actively close the loop with our dedicated recycling service, encouraging customers to return used products to be repurposed into new 3D printing material. Partner with Daktyl to achieve innovative, high-quality, and environmentally responsible manufacturing.
Post Industrial Crafts, based in Saint Etienne, France, specializes in creating bespoke design projects and customized event structures through large-format robotic 3D printing. The studio leverages pellet-based extrusion technology, which allows for the production of architectural components, artistic installations, and circular design applications. This multi-axis and non-planar fabrication capability enables highly unique and complex outputs. Furthermore, Post Industrial Crafts is deeply committed to eco-design and sustainability in its processes and products. You can explore their innovative design objects and extensive project catalogue on their website.
Robot Faber is a cutting-edge digital fabrication studio specializing in the intersection of traditional craft, computational design, and advanced robotic manufacturing. We harness the power of robotic additive (3D printing) and subtractive (milling) processes to bring complex, innovative designs to life. Our core expertise includes parametric design development, high-precision robotic 3D milling, and specialized clay and porcelain extrusion, complemented by our in-house firing capabilities. This unique blend of technologies allows us to offer tailored fabrication services, especially for large-scale and non-standard projects. Focused on architectural, artistic, and design applications, Robot Faber bridges the gap between digital models and physical reality, pushing the boundaries of what is possible in contemporary manufacturing.
LITHOSYS – VICAT SYSNERGIE is a leader in robotic concrete extrusion systems, providing solutions for both prefabrication and on-site production. A brand launched by Vicat in 2022, Lithosys is dedicated to concrete 3D printing and leverages Vicat's extensive research and development. The company offers proprietary low-carbon printable concrete premixes under the LITHOMIX range, as well as custom material formulations and technology transfer support. Their comprehensive service includes the design of printable objects, customized concrete inks, and the installation of concrete 3D printing systems in various locations. Based in Chambéry, France, LITHOSYS – VICAT SYSNERGIE is committed to innovation, helping clients scale up production and develop eco-designed products, such as artificial reef modules for marine environments.
FORMES ET VOLUMES is a specialized fabrication studio based in Aytré, France, dedicated to large-scale robotic manufacturing. We leverage advanced robotic 3D printing, multi-axis machining, and digital fabrication workflows to serve the architecture, design, and industrial prototyping sectors. Our expertise lies in creating custom components, complex geometries, and full-scale models for both creative and technical industries. Specifically, we specialize in 3D machining of soft materials in large dimensions, and we are proficient in the fabrication of master models and polyester molds. Whether you need professional models, prototypes, or tooling, FORMES ET VOLUMES delivers precise, high-quality manufacturing solutions.
4DXLab is an innovative research and design studio specializing in robotic additive manufacturing and computational design. They are pioneers in exploring material circularity by developing large-scale robotic 3D printing workflows. Their process utilizes pellet-based extrusion of recycled plastics, transforming waste into architectural components and experimental structures. This sustainable fabrication method allows them to create prototypes and unique designs efficiently. By merging design innovation with applied research, 4DXLab is committed to advancing the possibilities of large-scale 3D printing in a way that prioritizes environmental responsibility.
POOLP is a design and fabrication studio revolutionizing 3D printing with its cutting-edge robotic process, specializing in medium and large-scale prints. We leverage multi-axis "robot printing" to transform plastic waste and regenerated materials into custom furniture, architectural elements, and spatial installations. Our core mission is driven by a profound commitment to circular design and environmental stewardship, ensuring that every piece contributes to a sustainable future. By rethinking materials and processes within our urban micro-factory, we craft tailor-made solutions on demand, cutting waste and reducing emissions compared to traditional manufacturing. Founded by Thomas Sicouri and Lorenzo Rogai Fauvette, POOLP represents an artisanal gesture on an industrial scale, proving that sustainability and innovation can unlock new creative and functional possibilities.
Hyperion Robotics is revolutionizing the construction industry by integrating automation, robotics, and sustainable materials to build smarter, greener infrastructure. The company's vision is to accelerate the transition to a cleaner energy future by significantly cutting carbon emissions and saving energy in construction projects. By combining computational design, robotic manufacturing, and advanced materials like low-carbon concrete, Hyperion delivers high-performance foundations with a dramatically lower environmental footprint. Their engineered solutions can reduce emissions by up to 70%, use 75% less material, and cut energy consumption by 67% per structure. As a climate impact leader since 2020, Hyperion Robotics is dedicated to delivering low-carbon, efficient solutions that benefit both people and the planet, laying the groundwork for a sustainable energy ecosystem worldwide.
AddiThy, based in Thy, Denmark, is a specialist in Additive Manufacturing, offering comprehensive 3D printing services tailored for modern industrial needs. We utilize advanced technologies like FFF (Fused Filament Fabrication), FGF (Fused Granulate Fabrication), and SLS (Selective Laser Sintering) to support everything from rapid prototyping and iterative design to functional part manufacturing and large-scale serial production. Our expertise extends to creating plastic brackets, housings, electronics enclosures, and large-format custom interior elements for various public and commercial spaces. A core focus is sustainability, achieved through the use of recycled polymers in production. By integrating additive manufacturing into your production line, we act as an extension of your office, providing consulting and practical solutions with short lead times and close customer collaboration to ensure the technology creates real value.
CZ PLAST s.r.o. specializes in advanced manufacturing, offering multiaxis robotic additive manufacturing services from concept to final product. Established in 1997, the company has a long history in plastic manufacturing, originally focusing on rotational molding (rotomolding) for items like fuel tanks, water shafts, and custom pipes. They provide a broad list of already tested polymers for 3D printing and can handle large-scale projects with a substantial printing volume of 2.8m x 1.8m x ~2.4m. In addition to robotic 3D printing, CZ PLAST expanded its capabilities over time, including the purchase of a 3D scanner in 2020 for quality control and incorporating 3D printing for the production of fixtures and jigs by 2022. Their technicians are dedicated to guiding customers through the entire production process, ensuring ideas are realized efficiently and precisely.
So Concrete utilizes digital concrete technology and robotic fabrication to create innovative architectural and design projects, including unique facade panels. Their core mission is to combine knowledge from different professional fields to build highly aesthetic objects characterized by durability, material savings, and sustainability. They are committed to moving the construction industry towards long-term sustainability by fully utilizing the structural and aesthetic possibilities of digital concrete. This approach maximizes production efficiency and promotes environmental and economic friendliness in construction and architecture. Ultimately, So Concrete aims to bring complex visions to life through innovative solutions that meet both aesthetic and functional requirements.
Phoenix Design Lab is a comprehensive 3D printing partner, excelling as a Production Partner, Technology Provider, and Material Developer based in Belgium. As a Production Partner, they transform concepts from architects, designers, and manufacturers into tangible impact, delivering custom tooling, modular furniture, and architectural features. A key distinction is their commitment to sustainability, printing every component with purpose-built recycled materials and engineering them for a circular economy. For companies preferring in-house manufacturing, Phoenix Design Lab acts as a Technology Provider, building and selling the same Phoenix-engineered large-format 3D printers and modular production cells that power their own factory. These machines come with turn-key installation, training, ongoing software and hardware upgrades, and verified recycled-material profiles, making them a full-service solution for advanced, sustainable robotic 3D printing.
Guaranteed specializes in XXL metal wire and arc additive manufacturing, offering both production and repair services. We operate as a dedicated one-stop-shop, ensuring comprehensive solutions for our clients. A core focus is placed on product performance and quality, achieved through meticulous process monitoring and digitalization. Located at J.F. Kennedylaan 3, 9060 Zelzate, Belgium, we serve the European market. For inquiries about our robotic 3D print offerings, we can be reached at info@guaranteed.be or +32 473 30 19 28.
Footprint Inc., based in Brugge, Belgium, is a leader in advanced, large-format 3D printing services. They utilize sophisticated robot-controlled 3D printing technology to create exceptionally large objects. A key focus is sustainability, as they work with various plastic granulates, including recycled and fiber-reinforced materials. These cutting-edge capabilities allow Footprint Inc. to serve diverse needs, from producing striking designs and event installations to developing functional prototypes. This innovative approach offers clients a powerful solution for quickly and efficiently realizing massive, complex projects.
MDT A/S specializes in customized lightweight designs and constructions, focusing on complex, curved geometries for various industries, including architecture, entertainment, and industrial sectors. We offer comprehensive 3D printing manufacturing services, covering both large and small-scale projects, and we have expanded our capabilities to include printing in metal, specifically aluminum, using new robotic technology. Beyond manufacturing, our services encompass expert design consultancy, specialized support for design for 3D printing, and material research. We also provide 3D scanning and offer innovative acoustic regulating products, ensuring our tailored solutions meet unique project demands. By placing ourselves at the cross-section of creativity and science, MDT delivers optimal solutions founded on quality and workmanship, allowing clients to innovate with advanced materials and complex designs.
Hyperion Systems accelerates industries with large-format 3D printing and rapidly deployable manufacturing systems, fundamentally rethinking traditional production methods. We specialize in designing, engineering, and manufacturing advanced additive manufacturing platforms, including gantry and robotic-arm based solutions. Our systems support a wide range of thermoplastics and composites and are available as fixed or mobile units for on-site production, enabling businesses to build faster and smarter. Hyperion delivers rapidly deployable technology tailored for sectors like marine, construction, architecture, art & design, and defence, enabling efficient on-site production of critical large-scale parts. Services include end-to-end system integration, custom extrusion hardware, software development, and expert design consultancy, ensuring long-term success for every project.
The Bulgarian Additive Manufacturing Association (BAMAS) is the national platform dedicated to advancing Additive Manufacturing (AM), often known as 3D printing, within Bulgaria. BAMAS serves as a central hub for the exchange of critical AM know-how, resources, education, and technology among its members. The association actively fosters collaboration between industry, academia, and governmental bodies to accelerate the adoption of these innovative technologies. By facilitating networking and knowledge sharing, BAMAS plays a vital role in shaping the future of industrial production and technological development in the region. For further engagement, the association can be contacted via email at info@bamas.xyz, and more information is available on their website, www.bamas.xyz.
Laser Zentrum Hannover e.V. (LZH) is a premier research institution and university located in Hannover, Germany, and a key player in European technology. Founded in 1986, LZH is dedicated to interdisciplinary research and development in laser technology, effectively bridging the gap between research and practical industry application. They offer advanced robotic 3D print solutions including repair welding, cladding, wire-based laser additive manufacturing, and the additive manufacturing of large-scale parts, complemented by process monitoring and AI for quality control. Furthermore, LZH provides solutions through its Smart Photonics applications and Smart Optics services, offering customer-specific consultation and the development of innovations from single pieces to small series. With an extensive range of equipment, including various laser systems, additive manufacturing systems, and coating plants, LZH provides standards-compliant measurement services for the high-precision characterization and qualification of optical components.
INESC TEC (Institute for Systems and Computer Engineering, Technology and Science), located in Porto, Portugal, is a leading research institution dedicated to advanced research in robotic additive manufacturing, automation, and intelligent production systems. The institute operates a Laboratory of Industrial Robotics and Automation, where researchers develop cognitive, sensitive, collaborative, and safe robot-based solutions for complex manufacturing applications. They specifically focus on integrated hardware and software solutions for multi-axis robotic extrusion and advanced process monitoring to ensure precision and scalability in large-format 3D printing. Furthermore, INESC TEC develops and utilizes digital twins for real-time process monitoring and optimization, helping to enhance manufacturing efficiency, reduce errors, and ensure optimal performance from design through operation. Through these efforts, INESC TEC is committed to creating a sustainable future by delivering impactful science and technology that benefits both the economy and society.
The University of Exeter is a leading research institution located in Exeter, United Kingdom, known for its cutting-edge work in advanced manufacturing systems and technologies. Their robotic 3D printing capabilities are centered around a Large Format - High Temperature Printing system utilizing a Kuka robotic arm and localized heating, making it fully capable of processing High-Temperature Polymers like PAEK. This system offers a significant build chamber capability of approximately one cubic meter. Their research in this field focuses on material extrusion, including projects on multifunctional materials such as PEEK with graphene and boron nitride. The University actively engages in research and collaboration, using 3D printing technology for applications like fabricating soft robots integrated with low-melting-point alloys.
The Manufacturing Technology Center (MTC) is a leading research and technology organization dedicated to driving innovation in manufacturing processes and technologies. They collaborate with organizations of all sizes, from SMEs to large multinationals, across multiple sectors including Aerospace, Space, Defence, and Power & Energy. MTC experts help partners unlock the benefits of additive manufacturing, enabling increased design freedom, the creation of complex geometries, and reducing part count through component assembly consolidation. Beyond additive manufacturing, MTC offers extensive capabilities in automation and robotics, materials engineering, and digital manufacturing. Located in Coventry (Ansty Park), Liverpool, and Oxford (OAS), MTC works closely with industry, academia, and other institutions to help manufacturers stay competitive and benefit from cutting-edge technologies.
The University of Lancashire, based in Preston, United Kingdom, is a key Research Institution and University in Europe. It actively offers prototyping and consulting services in the field of robotic 3D printing. As a prominent educational provider, the university offers a wide range of courses, including Foundation Courses and specialized Bachelor of Science (Hons) degrees such as Psychology, Computing, and International Business Management. The institution is dedicated to helping students gain the necessary skills to be career-ready upon graduation, fostering potential through its comprehensive course offerings. The university focuses on igniting potential and preparing students for their chosen careers.
The University of Manchester is a world-leading Research Institution and University located in the United Kingdom, recognized for its commitment to innovation and research excellence. As a research powerhouse, the university combines various disciplines and capabilities to address complex societal challenges. Specifically, in the realm of robotic 3D printing, the University is engaged in cutting-edge research and development. A notable example of this innovation is the work by students who developed a cost-effective, 3D-printed robotic prosthetic limb for amputees, demonstrating the practical application of their expertise. The University also fosters strategic partnerships, such as with the Industrial Strategy Advisory Council and NatWest, and hosts prominent research centers like the Henry Royce Institute, further cementing its role in accelerating UK innovation and growth.
The University of Westminster's Fabrication Laboratory features cutting-edge KUKA robots, which are central to their advanced fabrication techniques. These industrial robots are primarily utilized for large-scale additive manufacturing processes, specifically extrusion-based 3D printing. The focus of this research is on innovative construction methodologies and architectural exploration, with a strong emphasis on sustainable design principles. Students and researchers have access to facilities including 3D printing, CNC cutting, routing, milling, and robot fabrication. This integration of design, architecture, and engineering aims to provide a real-world insight into the future of architectural production.
SU-IMC, the Sabancı University Integrated Manufacturing Technologies Research And Application Center, is an industrial-scale research and technology development center located in Pendik, Turkey. Operating on an open innovation principle, SU-IMC provides value-added solutions to transform companies using high technologies. Their core focus is on robotic and digital manufacturing, featuring a Robotic Hybrid Manufacturing Cell capable of processing metals, thermoplastic and thermoset composites, and metal matrix composites. They integrate advanced control systems, computer vision, and machine learning into their robotics for real-time control and vision capabilities. Committed to university-industry collaboration, SU-IMC also offers services including prototyping, product development, professional trainings, and manufacturing and test services, with the goal of gaining competent human power in integrated manufacturing and composite material technologies.
The Hogeschool van Amsterdam (HvA) is a leading university of applied sciences committed to preparing students for the future while addressing current societal challenges. The HvA's Faculty of Technology hosts the innovative Robot Lab, which actively explores 'robotic production' and 'robotic manufacturing.' This research focuses particularly on utilizing circular materials, such as recycled plastics and waste wood composites, to promote sustainability. The lab employs advanced industrial robotic arms, including the KUKA LBR iiwa and UR models, for computational design and the creation of tangible prototypes. As a whole, the HvA fosters a dynamic environment where over 44,000 students and 4,800 passionate professionals contribute to research, education, and making a positive impact on Amsterdam and beyond.
Fontys University of Applied Sciences is one of the largest universities of applied sciences in the Netherlands, located in the innovation hub of Eindhoven, Europe. As a major research institution, Fontys offers a wide variety of bachelor's, master's, and associate degrees, attracting students from over 80 nationalities. The university focuses on applied research and education, fostering close ties with leading companies and preparing students for international careers. Specifically, Fontys provides research and education in the field of Additive Manufacturing (AM), or Robotic 3D Printing, collaborating closely with industry partners and students. This practical, hands-on learning environment ensures graduates are well-equipped to grow and make a difference in their chosen fields.
The Royal Netherlands Aerospace Centre (Royal NLR) is the leading aerospace-knowledge enterprise in the Netherlands, operating as an independent, non-profit organization. Headquartered in Amsterdam, NLR provides crucial technical support to the aerospace sector, focusing on product development, testing, certification, and operational support. With a revenue of €110 million in 2023 and over 800 employees, the center conducts authoritative research and utilizes extensive test facilities, including for wind tunnel testing and structural testing. NLR is actively engaged in developing solutions across key areas, such as climate-neutral aviation, safe and competitive operations, and the development of air and space vehicles. They also offer specialized robotic 3D printing capabilities, including Fused Granular Fabrication (FGF) with composites/polymers and Directed Energy Deposition/Laser Metal Deposition (DED/LMD) for metals.
The NHL Stenden Lectoraat Smart Sustainable Manufacturing is a leading Research Institution and University center dedicated to advancing technology and innovation in the manufacturing sector. Located at Van Schaikweg 94, 7811 KL Emmen, The Netherlands, they focus on key themes including Additive Manufacturing, Robotics & End-of-arm-tooling, and Smart systems & Industrial Control. Their robotic 3D print offerings include being a developing partner, parameter optimization, material properties testing, and model validation. The research group is actively involved in significant projects such as Big Area Additive Manufacturing and Smart Polymer Welding, demonstrating their commitment to sustainable and flexible industrial processes. By focusing on digitalization and automation, the Lectoraat helps make supply chains smarter and more adaptable for the future.
The University of Twente operates a cutting-edge Robotic Material Development Platform, featuring a KUKA robot for precise material deposition and characterization. This advanced setup is crucial for developing and printing complex multi-material structures, particularly those relevant to the emerging fields of soft robotics and functional devices. As a research institution, the University of Twente's Soft Robotics Lab combines smart materials and advanced manufacturing techniques with intelligent robotic systems. Their research in this area, including the use of fibrous 3D-printed structures, is frequently highlighted in industry publications. The university is a leader in human-centered robotics, leveraging decades of expertise to develop intelligent robotic solutions for pressing global challenges in industry, healthcare, and society.
TU Delft is a leading research institution and university heavily involved in advanced robotic 3D printing research and applications across multiple specialized labs. The Center of Design for Advanced Manufacturing (CDAM) utilizes a UR3 robotic arm for multi-axis FDM 3D printing, enabling support-free plastic fabrication. Additionally, the Robotic Building Lab, focused on developing Design-to-Robotic-Production and -Operation (D2RP&O) methods, applies robotic fabrication techniques to diverse materials, including clay, silicon, recyclable plastic, and concrete, for complex architectural structures. This lab is equipped with industrial robots, such as a 6-axis KUKA robot, to explore various subtractive and additive end effectors. Through these facilities, TU Delft is actively pushing the boundaries of robotic construction and manufacturing for the built environment.
ETH Zurich is a leading institution in robotic 3D printing, conducting extensive research across multiple pioneering areas. Their work includes using robot-assisted impact printing with earth materials for innovative architectural applications, such as fabricating the world's tallest 3D-printed structure, the White Tower in Mulegns. They also focus on advanced multi-material jetting for the field of soft robotics, enabling the creation of complex, durable robots with combined soft, elastic, and rigid materials in a single print. Furthermore, their researchers have developed novel processes like a multi-metal 3D printing technique that can simultaneously fuse two different metal powders on a rotating platform, speeding up manufacturing and minimizing waste. Through these diverse initiatives, ETH Zurich continues to explore hybrid robotic fabrication for construction, advanced materials, and next-generation robotic systems.
EPFL (École Polytechnique Fédérale de Lausanne) is a leading research institution and university located in Lausanne, Switzerland, and is recognized as one of Europe's most vibrant and cosmopolitan science and technology institutions. Its innovative research includes pioneering Aerial Additive Manufacturing (Aerial AM), where flying robots (drones) equipped with advanced manipulators autonomously deposit construction materials layer-by-layer for building and repair applications, including exploration into swarm robotics. Beyond this, EPFL researchers have developed other cutting-edge 3D printing technologies, such as a programmable lattice structure for robotics that mimics biological tissues using a single foam material (EleBot), and new methods for creating dense metal and ceramic objects. The institution tackles major contemporary challenges through education, research, and innovation across its five schools and two colleges. Situated in the heart of Switzerland, EPFL collaborates extensively with partners in industry, academia, and the public sector, aiming to make a real impact on society.
IWK Institut für Werkstofftechnik und Kunststoffverarbeitung (Institute for Materials Technology and Plastics Processing) is a leading research institution and university institute based in Rapperswil-Jona, Switzerland, focusing on plastics technology. As a key part of the OST – Ostschweizer Fachhochschule, IWK is recognized as Switzerland's leading research facility for component design and production in plastics technology, employing approximately 50 staff. They bridge the gap between science and practical application to deliver innovative solutions using modern materials and production technologies. Their robotic 3D printing services include material development, process optimization, and software development for continuous path planning and robotic printing applications. Furthermore, the institute possesses specialized equipment, such as its own filament extrusion line, various FDM printers, and the Arburg Freeformer, to support its advanced research and development activities.
GKN Aerospace's Trollhättan facility in Sweden serves as its Centre of Excellence for Engine Systems, building on the company's over 265 years of industrial heritage as an original aerospace innovator. This advanced center provides expertise across a wide array of engine components, ranging from intermediate and compressor exhaust cases for both civil and military aircraft engines, to crucial turbines and nozzles utilized in the most sophisticated space rockets. Beyond these core engine systems, the company manufactures aircraft structures and cabin windows globally. Trollhättan is also recognized as a world leader in laser-wire deposition additive manufacturing technology, highlighting GKN Aerospace's commitment to cutting-edge technology. Visit GKN Aerospace Sweden to explore its comprehensive offerings in engine components, aircraft structures, and more.
Chalmers University of Technology, located in Gothenburg, Sweden, is a renowned institution focusing on engineering and science, driving solutions for societal challenges. Their commitment to cutting-edge research is highlighted by the Robotic Fabrication Lab, which is equipped with three six-axis industrial robot arms, specifically the KUKA Agilus and KUKA Quantec models. These advanced robots are central to various fabrication processes, including sophisticated 3D printing techniques like Fused Deposition Modeling (FDM) and Direct Ink Writing (DIW). This technology allows the lab to conduct crucial research in 3D printing with innovative materials, such as biomaterials, alongside traditional advanced materials and CNC milling. Through these capabilities, Chalmers actively contributes to developing next-generation technologies in robotic manufacturing and sustainable fabrication.
KTH Royal Institute of Technology is Sweden's largest and leading technical university, established in 1827, and a globally recognized center for engineering and technology research. Within its advanced research environments, KTH utilizes cutting-edge robotic 3D printing technology, particularly for concrete printing applications. Their setup prominently features an ABB robotic arm, often mounted on a linear track, which is integrated with a specialized Vertico end effector. This powerful system is primarily focused on 3D concrete printing for infrastructure projects, demonstrating KTH's commitment to innovation in construction and sustainable building practices. As a public research university located in Stockholm, KTH plays a crucial role in providing one-third of Sweden's research and engineering education, driving progress in these sophisticated technological areas.
RISE – Research Institutes of Sweden is a state-owned research institute collaborating with universities, industry, and the public sector to create sustainable growth. Their Application Center for Additive Manufacturing (AM Center), physically located in Mölndal, utilizes cutting-edge technology and high-quality materials to produce large-scale objects quickly and efficiently. A core focus of the AM Center is its strong commitment to sustainability and circularity, prioritizing materials that can be recycled and repurposed while ensuring products meet the highest standards of quality and durability. Founded in 2021, the AM Center serves as a leading collaborative and innovative co-creation platform for actors along the value chain to solve common technical and competence-related challenges. RISE's headquarters are located in Gothenburg, Sweden, and as of December 2023, the institute employed 3,298 people across six organizational divisions.
CeNTI, the Centre for Nanotechnology and Smart Materials in Portugal, is a leading research institution dedicated to the research and development of new materials and advanced products. Their innovation team focuses on Nanotechnology, Advanced Materials, and Smart Systems, with a strong commitment to technology transfer and creating value-added solutions for the business ecosystem. A core area of their expertise includes developing advanced materials and functional coatings for integration into additive manufacturing and robotic 3D printing processes. CeNTI explores sophisticated polymer and composite formulations with embedded functionalities, which enable high-performance and sustainable applications. They actively support various industrial sectors, including construction, mobility, design, Automotive & Aeronautics, and Health, Protection & Well-being, by developing and validating new technologies.
CDRSP – Centre for Rapid and Sustainable Product Development, affiliated with the Polytechnic of Leiria, is a leading European research institution located in Marinha Grande, Portugal. They are dedicated to advancing robotic and large-scale additive manufacturing, supported by three core scientific pillars: geometry and topology/computer simulation, advanced materials, and novel manufacturing processes. Their innovative research spans materials science, hybrid manufacturing, and multi-axis robotic extrusion for various materials, including polymers, composites, and concrete. Furthermore, CDRSP integrates design, simulation, and production research to enable digitally driven manufacturing solutions that prioritize sustainability. The center's research areas also include creative art, design and materials thinking, and smart, sustainable, and advanced manufacturing.
SeaPower is a leading research institution applying cutting-edge, large-scale robotic 3D printing (LSAM) technologies specifically tailored for demanding marine and energy applications. Our core mission is to revolutionize manufacturing within the maritime sector by focusing on durable, lightweight, and highly corrosion-resistant components. We achieve this through advanced composite and polymer extrusion processes, enabling the efficient creation of large-scale parts with exceptional precision. Utilizing LSAM allows for rapid prototyping and production, significantly reducing lead times and waste compared to traditional methods. By embracing these sustainable manufacturing solutions, SeaPower actively contributes to more efficient maritime operations and a greener future for the industry.
The ACTech Hub at the University of Minho’s School of Architecture, Art and Design is a leading research center focused on the convergence of architecture, engineering, and digital technologies. Its mission involves pioneering research and education in additive manufacturing, robotic construction, and the integration of BIM with generative design. The hub is dedicated to the experimental validation of sustainable and automated building systems, including innovations like 3D-printed concrete reinforced with natural fibers and robotically fabricated architectural components. Through its ARENA — Advanced Design & Technology Lab, ACTech provides a collaborative facility for exploring emerging digital techniques such as intelligent construction and cyber-physical interaction in architectural manufacturing. The hub bridges academic discovery with practical application, fostering essential collaboration with industry partners to drive meaningful knowledge and lasting impact within the construction sector and society.
Tekniker is a leading Research and Technology Centre located in Eibar, Spain, dedicated to advancing industrial competitiveness through technological solutions. As a key player in the European research landscape, Tekniker specializes in areas such as Mechatronic systems, Industrial maintenance, and Automation and industrial robotics. Their research and development efforts are focused on critical industrial sectors including Aeronautics and space, Agrifood, and Automotive. Within advanced manufacturing, Tekniker offers expertise in robotic 3D printing, enabling both cutting-edge research and high-quality part manufacturing. They drive innovation through core research areas like Advanced manufacturing, Surface engineering, and ICTs to deliver measurable impact to businesses worldwide.
Aitiip is a leading Research Institution and University-affiliated technology center located in Zaragoza, Spain, specializing in advanced manufacturing and sustainable materials. We design and build custom robotic additive manufacturing systems, including multi-axis robotic arms equipped with high-throughput extruders for thermoplastics and bio-based composites. Beyond 3D printing, our comprehensive services include materials on demand, design and engineering, mechanical manufacturing, and plastics processing. Aitiip operates one of the biggest 3D printing workshops in Europe and offers expertise in rapid prototyping, small-series production, and consulting focused on Design for Additive Manufacturing (DfAM). We actively lead and participate in significant national and European R&D projects, such as the SOUL project to combat soil pollution from plastics and work within sectors like construction, industrial manufacturing, automotive, and aerospace.
AIMPLAS – Instituto Tecnológico del Plástico is a leading Spanish technology center dedicated to research and development in polymer materials and processing technologies, boasting over 35 years of experience in the plastics industry. The institute explores robotic and large-format 3D printing using recycled plastics, biopolymers, and composites, striving to develop sustainable materials and extrusion solutions for various industrial applications. As a key technology partner, AIMPLAS offers end-to-end solutions, customized services, and comprehensive training to help companies throughout the entire plastics value chain. Their commitment is to build a better world by fostering sustainable innovation around plastics, which includes having over 12,000 m² of cutting-edge facilities and more than 50 pilot plants for testing plastic processing applications. With a focus on the circular economy and Industry 4.0, AIMPLAS provides solutions that minimize environmental impact and create new, high-value applications for society.
TUKE Slovakia, officially the Technical University of Košice, is a prominent Research Institution and University located in Košice, Slovakia, serving as a vital center for education and research throughout Central Europe. They specialize in collaboration with industry partners and offer custom manufacturing services, particularly focusing on polymer materials using robotic 3D printing technologies. As a key member of the ULYSSEUS European University alliance, TUKE is connected to a network of eight strong European universities, enhancing opportunities for its students and staff. The university is comprised of multiple faculties, including Mechanical Engineering, Civil Engineering, and Materials, Metallurgy and Recycling, demonstrating a broad spectrum of technical expertise. This extensive academic foundation allows TUKE to be a leading hub for innovation and the development of advanced manufacturing solutions.
Tecnalia Research & Innovation is a leading European research center dedicated to technological development and innovation across multiple sectors, including energy transition, smart manufacturing, and digital transformation. As strategic partners, Tecnalia develops customized R&D and innovation projects to generate impact on business through technology. Within their capabilities, Tecnalia develops advanced solutions for large-scale robotic 3D printing in construction, focusing on new materials, extrusion processes, and robotic systems. Their dedicated 3D Printing in Construction Laboratory enables greater efficiency, reduced waste, and innovative architectural applications by printing structural and non-structural elements. Furthermore, the company offers extensive lab services and expertise in areas like robotics, cybersecurity, and advanced materials, developing technological solutions that generate profit for companies and value for society.
DONE Lab, a leading research laboratory based at the University of Minho in Guimarães, Portugal, is dedicated to advancing robotic additive manufacturing and digital design. We specialize in developing new approaches for sustainable product design, material science, and AI-assisted manufacturing. Our facility operates state-of-the-art multi-material robotic printing systems, including pellet extrusion (FGF), demonstrating our commitment to large-scale, innovative production. Established in 2016 through a partnership between UMinho and Bosch Car Multimedia Portugal, DONE Lab aims to implement and share research breakthroughs for both the academic and industrial communities. We actively engage in Research and Innovation, Design and Engineering, and Digital Manufacturing to create groundbreaking products and system solutions.
AIMEN Technology Centre is a leading hub for industrial innovation and technological development, offering a comprehensive suite of services to enhance corporate capabilities. These services include the execution of R&D and innovation projects focused on advanced manufacturing, materials science, digital technologies, process automation, and robotics. AIMEN delivers customized engineering solutions, notably in fields like additive manufacturing and materials processing, alongside specialized training and technical consultancy. As a key player, AIMEN also focuses on technology transfer, helping companies scale up innovative processes for real-world industrial application. Furthermore, the center offers high-value-added services such as laboratory testing, characterization services, and prototype development to solve complex industrial challenges.
LORTEK is a leading non-profit private technology center specializing in the digitalization of manufacturing processes, particularly metal additive manufacturing and robotic deposition. Our mission is to generate and transfer excellent knowledge to the industrial sector, significantly improving competitiveness and sustainability. We focus on advanced technologies like WAAM (Wire Arc Additive Manufacturing), DED (Directed Energy Deposition), and hybrid AM systems, providing innovative solutions throughout the entire value chain. LORTEK is dedicated to developing new materials, processes, monitoring, and control solutions across various flexible machine architectures, offering comprehensive repair and manufacturing solutions for demanding sectors like aerospace, energy, and industrial tooling. As a cooperative technology center, we strive to be a leader in digital and smart manufacturing, addressing technological challenges related to the digital and energy-climate transition.
CATEC, the Advanced Center for Aerospace Technologies, located in Seville, Spain, is a leading research and innovation center specializing in advanced manufacturing for the aerospace and defense sectors. As the largest aerospace and defense technology center in Spain, CATEC is a European and world reference in areas including collaborative and aerial robotics, having conducted the first complex aerial robotic manipulation tasks globally. The institute is also a European leader in Additive Manufacturing for space and aeronautical applications, focusing on payloads and critical and secondary structures. Their expertise includes developing robotic metal additive manufacturing processes like Wire Arc Additive Manufacturing (WAAM) and Laser Metal Deposition (LMD). CATEC drives innovation through structural optimization, process automation, and in-situ monitoring to deliver high-performance components for the aerospace industry.
IMDEA Materials Institute is a leading Research Institution and University based in Getafe, Spain, dedicated to excellence in materials science and engineering research. The institute's mission includes attracting talented researchers globally and transferring cutting-edge technology to industry to boost competitiveness. Central to its advanced capabilities is a unique robotics laboratory featuring five modular and collaborative robots that automate materials discovery and processing. This facility pioneers the development of advanced polymer-based materials and nanocomposites, enabling high-throughput experimentation and AI-driven development highly relevant to additive manufacturing and sustainable innovation. Furthermore, IMDEA Materials utilizes state-of-the-art infrastructure for manufacturing, characterization, and simulation of advanced materials, accelerating the journey from scientific results to real-world applications in fields like sustainable steel, green hydrogen production, and fire safety engineering.
The Institute for Advanced Architecture of Catalonia (IAAC) in Barcelona, Spain, is a leading research and education center dedicated to exploring robotic 3D printing in architecture and construction. For over a decade, IAAC has been at the forefront of bringing 3D printing to the field of architecture, focusing heavily on sustainability and innovation. Their research develops large-scale material systems, utilizing natural and recycled materials like clay, earth, and recycled polymers. IAAC is also pioneering on-site robotics, investigating 3D printing with mobile cable robots and drones to overcome printer size limitations and monitor construction in real-time. This allows them to combine computational design, material innovation, and sustainable fabrication methods to address global housing and climate challenges, exemplified by projects like TOVA, Spain's first 3D printed housing prototype using earth.
The West Pomeranian University of Technology in Szczecin (ZUT) is a distinguished research institution located in Poland, actively promoting interdisciplinary studies that combine academic excellence with practical research applications. ZUT addresses regional, national, and international challenges through faculties such as Civil Engineering and Architecture, and Biotechnology and Animal Husbandry. Their cutting-edge work includes research in sustainable 3D printing technologies, specifically focusing on 3D concrete printing (3DCP) and new photoactive building materials. Through their robotic 3D print offerings, they leverage this expertise to print various elements for external customers. This commitment to combining advanced technology and academic rigor positions ZUT as a leader in technological innovation and research.
Łukasiewicz Research Network – Industrial Research Institute for Automation and Measurements PIAP is a leading research institution based in Warsaw, Poland, and is recognized as one of the largest research networks in Europe. Founded in 1965, the institute focuses on technical problem solutions in critical areas such as automatics, robotics, measurements, and security. PIAP actively develops technological breakthroughs including advanced robotics, Artificial Intelligence (AI), IoT, and 3D printing. Their robotic 3D print offerings include large-size concrete 3D printing, Wire Arc Additive Manufacturing (WAAM), and mobile 3D printers, catering to manufacturing and construction industries. As a Digital Innovation Hub (DIH) and a partner in the twin green and digital transition of industry, PIAP leverages modern equipment and qualified staff to provide innovative solutions and help businesses gain a competitive edge.
The Norwegian University of Science and Technology (NTNU) is a leading public university dedicated to "Knowledge for a better world." Established in its current form in 1996, with roots tracing back to 1870, NTNU is headquartered in Trondheim, Norway, with additional campuses in Gjøvik and Ålesund. The university is recognized as a major research institution, focusing on cutting-edge research and technology. Specifically, its Additive Manufacturing research group actively develops and applies advanced robot-assisted material deposition techniques, such as Wire Arc Additive Manufacturing (WAAM). This work is crucial for producing large-scale metal components, emphasizing process optimization and metallurgy to advance industrial applications in robotic 3D printing.
The University of Malta is a key research institution in Europe, pioneering sustainable construction through advanced robotic 3D printing. Specifically, the university is developing and utilizing a prototype gantry-type 3D printer for concrete, concentrating on the use of low-impact concrete and recycled aggregates to promote environmentally responsible building practices. Beyond concrete printing, the university's facilities include a comprehensive Rapid Prototyping or Additive Manufacturing Lab, equipped with plastic 3D printers using fused deposition modelling (FDM) and a Titanium 3D printer utilizing electron beam melting (EBM) technology. Their research agenda is strongly focused on converting waste into resources within additive manufacturing processes, demonstrating a commitment to reducing construction waste and lowering resource demand, such as eliminating the need for formwork. The University of Malta is actively addressing urgent environmental challenges by pushing the boundaries of 3D concrete printing technology.
Vilnius Gediminas Technical University (VILNIUS TECH) is a leading research institution in Lithuania, established in 1956. The university is deeply involved in cutting-edge research and innovation across multiple disciplines, including engineering, technology management, and architecture. VILNIUS TECH is actively pioneering advanced construction techniques through its focus on robotic 3D concrete printing. This involves utilizing a robotic arm to precisely handle the printhead for material extrusion, offering new solutions in digital fabrication. As a modern university, VILNIUS TECH offers a wide range of featured programs, such as Aerospace Engineering, Engineering of Artificial Intelligence, and Sustainable Building, fostering future leaders in technology and innovation.
Politecnico di Milano, a leading Research Institution and University, is at the forefront of robotic 3D printing technology, driven by their dedicated +Lab. They developed the innovative 'Atropos' system, a six-axis robotic arm capable of 3D printing continuous fiber composites, including fiberglass. This technology, known as Continuous Fiber Composites Smart Manufacturing, draws inspiration from natural fiber-based processes like those used by silkworms and spiders. Additionally, Politecnico di Milano actively collaborates on large-scale robotic 3D printing initiatives, utilizing a 7-axis robotic arm on rails for processing recycled polymers, highlighting their commitment to sustainable and advanced manufacturing solutions. Through these projects, they are pushing the boundaries of what is possible in design and construction using robotic additive manufacturing.
The Digital Fabrication Lab (INGEO, Ud’A), located in Pescara, Italy, is a key research institution and university lab dedicated to advancing knowledge in digital fabrication, particularly for Building Construction. This European facility focuses on promoting advanced research projects, innovative teaching, and third-mission activities. Their comprehensive services include prototyping, material characterization, laboratory testing, and advanced simulation techniques. They actively work on digitalizing building construction processes, ensuring their research remains at the forefront of the industry. Located at Viale Pindaro 42, the lab is an integral part of the University of Chieti-Pescara (UNICH) and is committed to collaborating with public and private entities.
The University of Bologna, a leading research institution located in Bologna, Italy, specializes in cutting-edge research and prototyping for robotic 3D printing, particularly utilizing Wire and Arc Additive Manufacturing (WAAM) technology. Their offerings include comprehensive mechanical tests and microstructural analysis on WAAM parts to ensure material integrity and performance. The University actively engages in testing and prototyping WAAM parts for architecture, design, and construction applications, focusing on innovative design for Additive Manufacturing (DfAM) principles. Research is primarily conducted through departments like Civil, Chemical, Environmental and Materials Engineering (DICAM), demonstrating a strong commitment to advancing metal 3D printing in the construction sector. As a global leader in academic research, the University of Bologna cooperates with various organizations to support the growth and spread of knowledge in this advanced field.
Irish Manufacturing Research (IMR) is a national industrial R&D facility dedicated to helping Irish industry innovate, digitise, and compete globally. Their core mission is to "Demystify, Derisk, and Deliver" emerging technologies and new knowledge, enabling businesses to succeed at the cutting edge of advanced manufacturing. IMR provides practical solutions in areas like robotics, automation, digital transformation, and sustainable manufacturing practices, ensuring measurable returns in cost, carbon, and competitiveness. Operating across Ireland and Europe with a team of 120+ people, IMR offers services ranging from early-stage idea validation and prototyping to specialized consultancy and training. Through collaboration, applied technology, and leading initiatives like FactoryXChange, IMR turns complex challenges into practical solutions for sustainable growth and innovation.
The University of Limerick, a leading Research Institution and University in Ireland, is home to the specialized Metal Plasticity and Additive Manufacturing Group (MPAM). This group conducts cutting-edge research focused on the additive manufacturing of metal components. They utilize an advanced robot welding cell, which is adaptable for both Direct Energy Deposition (DED) and Wire Arc Additive Manufacturing (WAAM), enabling large-scale fabrication. Their work is also focused on material characterization and includes research into plasticity modeling of titanium and steel alloys fabricated via additive manufacturing. MPAM is actively involved in presenting their research, such as their work on elastoplastic response modeling of additively manufactured metals, at international conferences.
The Budapest University of Technology and Economics is a prominent Research Institution located in Budapest, Hungary, specializing in cutting-edge robotic 3D printing technologies. The university employs an advanced large-scale six-axis industrial robot, specifically an ABB IRB 6700, for its 3D concrete printing initiatives. This system, which also utilizes a specialized MAI®MULTIMIX-3D mixer, focuses on concrete extrusion for research into material properties and structural applications of large-scale printed elements. Research in this field, conducted at the Laboratory of Construction Materials and Technologies, has been ongoing since 2022. Furthermore, the university established the Industry4.0 Technology Center to advance technology transfer and research, furthering its commitment to innovative manufacturing techniques.
The University of Stuttgart, a leading research institution in Germany, is renowned for its robust research profile and collaborative initiatives. Its Institute for Computational Design and Construction (ICD), based in Stuttgart, Europe, is actively engaged in pioneering work in computational design and computer-aided manufacturing in architecture. The ICD utilizes a heavy-duty industrial robot arm on a 12-meter linear axis, equipped with a 3D printing effector, for advanced dual additive manufacturing, notably focusing on timber-bioplastic hybrid structures. Beyond construction, the university is also exploring innovative areas like fiber-based 3D printing for miniature medical objects and micro-optics. This focus on intelligent engineering systems and sustainable construction solidifies the University of Stuttgart's position as a hub for cutting-edge technological advancements.
The Technical University of Munich (TUM), recognized as an "Entrepreneurial University" and a University of Excellence, is a leading public research institution specializing in engineering, technology, and applied sciences. Its commitment to cutting-edge research is evident in the Robotic Fabrication Labs, which feature two advanced Universal Robots (UR) robotic arms. These systems utilize an extrusion setup for model-size 3D printing with materials like clay and cementitious mortar. TUM actively drives innovation in this field, particularly through research centers like the Professorship of Digital Fabrication, which explores new methods for architectural fabrication, including Earth Additive Manufacturing (EAM) and Mobile Robotics for Additive Manufacturing in Construction (MAM). Furthermore, TUM supports deep-tech ventures through initiatives like the TUM Venture Lab Additive Manufacturing, ensuring its research translates into real-world applications.
The Karlsruhe Institute of Technology (KIT) is a leading research institution and University of Excellence based in Karlsruhe, Germany, located in the dynamic European region. KIT is deeply involved in cutting-edge research, including its innovative robotic 3D printing capabilities. Specifically, KIT is developing a novel microwave print head that a robotic arm can move and rotate in 3D space, enabling the highly precise and flexible 3D printing of fiber-reinforced thermoplastics. Furthermore, KIT has advanced processes for the 3D printing of glass at the nanometer scale directly onto semiconductor chips. As part of the Helmholtz Association, KIT is committed to tackling major research challenges across fields like energy, matter, and key technologies, solidifying its role as a pivotal center for science and education.
The Institute of Construction Management (Institut für Baubetriebswesen) at TU Dresden is a leading research institution specializing in construction process engineering for concrete 3D printing (B3D). They offer contract research and technical collaboration focused on optimizing B3D workflows, covering critical areas like process design, time and cost analysis, quality assurance, and data-driven resource efficiency. Collaborating with other institutes at TU Dresden, such as the Institute for Building Materials, they are actively developing special concrete technology and machinery adaptation, specifically using their CONPrint3D® concept. This interdisciplinary expertise allows them to support industry partners in advancing B3D innovation, including vital work on integrating reinforcement into 3D-printed concrete elements. With access to both stationary and mobile 3D printing systems, the Institute facilitates knowledge transfer through expert workshops and helps scale these cutting-edge technologies toward practical, real-world application in the construction industry.
The Fraunhofer Institute for Production Technology (IPT) is a leading scientific institution dedicated to advancing production research, putting the "Hightech_Agenda_Deutschland" into practice by translating basic research into industry-ready solutions. Focusing on production technology, Fraunhofer IPT promotes competitiveness, value creation, and technological sovereignty within the German economy. Their cutting-edge research includes extensive work in robotic 3D printing technologies such as robot-integrated Laser Metal Deposition with Wire (LMD-w) and Wire Arc Additive Manufacturing (WAAM) for creating large-scale metal components. Furthermore, Fraunhofer IPT is involved in research on Laser Powder Bed Fusion (LPBF) to produce complex geometries. By developing customized additive manufacturing processes and implementing them into existing process chains, they offer comprehensive services from feasibility studies and prototype development to small series testing for industrial partners.
The Fraunhofer Institute for Manufacturing Technology and Advanced Materials (IFAM) is a leading research institution based in Germany, recognized as part of the Fraunhofer-Gesellschaft, a premier applied research organization. IFAM, specifically at its Dresden location, focuses on materials and manufacturing techniques for functional materials, including those for hydrogen technology, electrochemistry, and light metal alloys. Their advanced robotic 3D print offerings feature industrial robots like the Kuka KR16 and UR5e on linear axes, enabling the functionalization of large and medium-sized components. This capability allows for printing features such as sensors or heaters onto complex surfaces using conductive inks and polymers. Founded over 70 years ago, Fraunhofer IFAM employs nearly 600 people, with over 90% engaged in scientific and technical work across multiple locations including Bremen, Dresden, and Stade, demonstrating a commitment to covering the entire value chain from material development to industrial manufacturing integration.
The Fraunhofer Institute for Manufacturing Engineering and Automation (IPA) is a leading research institution focused on shaping the future of manufacturing through sustainable, personalized, and intelligent solutions. Located in Stuttgart, Germany, Fraunhofer IPA develops robot-based hybrid manufacturing systems, utilizing six-axis industrial robots for large-scale additive manufacturing with granulates. Their work integrates these additive processes with subtractive techniques and automated quality control to create complex parts. Furthermore, the institute focuses on cyber-physical production processes, integrating "smart" machines, tools, parts, and orders that interact in near real-time, driving solutions from Lean Management to "Industrie 4.0." Their research extends into crucial areas like additive production, cybercognitive intelligence, and digitized battery cell production.
The Fraunhofer Institute for Machine Tools and Forming Technology IWU is a leading research institution based in Chemnitz, Germany, specializing in advanced production technologies. With over 30 years of expertise, Fraunhofer IWU acts as an innovation driver for smart production, optimizing production systems for manufacturing enterprises of all industries and sizes. They conduct applied research to offer partners measurable added value for their competitiveness, working on future production systems in an increasingly digitized world. In the field of robotic 3D printing, the institute focuses on developing and printing parts using Fused Granulate Fabrication (FGF) processes. Their work in additive manufacturing includes automated adaptation of designs for economical production in low-volume series, ensuring continual component optimization.
The Fraunhofer Institute for Laser Technology (ILT), located in Aachen, Germany, is a leading research institution specializing in laser and photonics solutions. As part of the prestigious Fraunhofer-Gesellschaft, ILT is at the forefront of innovative research and development. Since the mid-1990s, the institute has significantly advanced Additive Manufacturing, especially of metallic components, utilizing processes like Laser Powder Bed Fusion (LPBF) and Laser Material Deposition (LMD). For robotic 3D printing, ILT researches and implements LMD with powder and wire, employing flexible robotic arm systems with integrated laser beam sources for the fabrication of large-scale and complex metal components. Its core research areas also encompass lasers, optical systems, quantum technology, and laser measurement technology, collaborating closely with industry partners.
Dresden University of Technology (TUD) is a distinguished public research institution located in Dresden, Germany, a major hub for research and technology in Europe. Established in 1828, TUD is known for its strong research profile, particularly in fields like microelectronics and transport sciences, and is part of the German Universities Excellence Initiative. The university's Institute of Building Construction is actively engaged in robotic 3D printing, specifically developing and utilizing a large-scale 3D printer with a robotic arm. This project, funded by InfraPro (SAB-EFRE) and ongoing since 2020, underscores TUD's commitment to advancing construction technology through robotics and additive manufacturing. As a leading research institution, TUD continuously explores innovative applications for 3D printing across various disciplines.
TUD Dresden University of Technology is one of Germany's distinguished Universities of Excellence, established in 1828. It is the largest university in Saxony, recognized globally for its strong academic reputation and cutting-edge research across all major disciplines, including Engineering Sciences, Natural Sciences, and Humanities and Social Sciences. The university is highly inventive and transformative, playing a leading role in technology transfer and focusing research on areas like Principles of Life, Advanced Materials, and Microelectronics/Information Science. Regarding robotic 3D printing, TUD Dresden actively pursues research projects and education in lightweight engineering and polymer technologies. The university emphasizes collaboration, sustainability, and well-being, fostering an environment where approximately 9,000 employees from 89 countries work today.
Technische Universität Dresden (TU Dresden) is a leading research institution in Europe, actively engaged in cutting-edge research and development within the field of robotic 3D printing. The university's efforts are significantly focused on robotic concrete 3D printing, exemplified by pioneering projects like ConPrint3D. This research involves key partnerships between specialized departments, including the Institute of Lightweight Structures and Industrial Robots (IFL) and the Institute of Construction Materials (IWB), allowing for the large-scale additive manufacturing of reinforced concrete structures. Furthermore, TU Dresden conducts research into large-scale polymer 3D printing systems and biofabrication, utilizing technologies such as extrusion-based 3D plotting for creating constructs and implants. Through these multidisciplinary initiatives, TU Dresden is helping shape the future of construction, engineering sciences, and bio-medical fabrication.
Technische Universität Braunschweig is at the forefront of developing innovative, faster, more cost-effective, and sustainable construction methods through robotic 3D printing. The research focuses on printing components using various materials, including concrete, metal, and clay, alongside the development of new materials and processes that offer enhanced design freedom. This interdisciplinary research center unites experts from civil engineering, mechanical engineering, architecture, and materials science to revolutionize the construction industry. Furthermore, the university's research includes advanced robotics, such as the Institute of Robotics and Process Control, and features specialized facilities for 3D printing across various institutes. Their core mission is to reduce material consumption and simplify the production of complex structures, demonstrating a strong commitment to future-forward engineering and sustainable technology.
The Université de Toulon is a hub for cutting-edge research in robotics, with a strong focus on advanced mechanical systems and computer vision, especially within the Conception de Systèmes Mécaniques et Robotiques (COSMER) laboratory. The university conducts advanced research in multi-axis robotic additive manufacturing, concentrating on direct deposition processes, non-planar toolpaths, and hybrid robotic–machine-tool systems for large-scale AM. Furthermore, its research integrates sophisticated elements like sensing, monitoring, geometric metrology, design optimisation, and life-cycle analysis to significantly improve precision, efficiency, and sustainability. The university also offers Master's degrees in Marine and Maritime Intelligent Robotics, highlighting its expertise in underwater technology and autonomous subsea operations. Through these diverse initiatives, the Université de Toulon is actively pushing the boundaries of robotics and 3D printing technologies.
Institut Pascal, a leading research institution in Aubière, France, specializes in cutting-edge robotic additive manufacturing. Our laboratory utilizes advanced equipment, including an ABB IRB 6660 industrial robot paired with a 3-axis positioning table and AdaOne software for precise multi-axis toolpath control. A core focus of our work is pellet-based extrusion (FGF), which allows for large-scale polymer research and experimental robotic fabrication, offering a versatile, cost-effective, and scalable alternative to traditional methods. Beyond 3D printing, our broader research scope encompasses intelligent and innovative robots and machines, including complex topics like robot and multi-robot control, enhanced mobility, and dynamic environment interaction. These efforts support applications in areas such as robotic-based manufacturing and intelligent transportation systems, positioning Institut Pascal at the forefront of automation and materials science innovation.
École Nationale des Ponts et Chaussées is a leading research institution focused on digital construction, specifically leveraging robotic additive manufacturing for architecture and construction applications. The institution's research emphasizes advanced processes like multi-axis robotic fabrication, sophisticated extrusion techniques, and developing non-planar toolpaths. Through its experimental research platform, Build'In, the school is pioneering new ways of building, focusing on collaborative robotics, large-scale 3D printing, and new material systems. The institution is dedicated to developing experimental building components, sustainable material systems, and digital workflows that define next-generation construction methods. Graduates and researchers gain essential know-how in innovating design workflows using computational and collaborative approaches toward architecture and engineering, providing a complete understanding of tools for digital design and robotic manufacturing.
Centria University of Applied Sciences, located in Finland with campuses in Kokkola, Ylivieska, and Jakobstad, is a leading research institution committed to applied technology development. Its Robo3D Lab features advanced industrial and collaborative robots (cobots) dedicated to large-scale robotic 3D printing. The lab primarily uses thermoplastics such as PLA, PETG, and ABS via large-scale pellet extrusion, constantly developing new processes and applications in additive manufacturing. Beyond robotic 3D printing, Centria possesses extensive expertise in plastic and composite materials through its PlastLab, offering material selection, manufacturing, and 3D printing for product development and R&D projects. Centria is also involved in cutting-edge projects like BIOPRINT, which focuses on 3D printing with bio-based materials to foster a circular economy.
The University of Southern Denmark (SDU), through its CREATE lab, conducts extensive, cutting-edge research in 'Robotics in 3D Concrete Printing.' This work focuses on computational design, structural optimization, and generating optimized robot code for complex concrete structures using industrial robotic arms, such as the ABB 6650S Industrial Robot and Concrete Extrusion System. SDU aims to revolutionize sustainable concrete construction through digital prefabrication and off-site fabrication methods. This innovative approach is designed to reduce embodied CO2 emissions and use less material compared to conventional cast concrete. By focusing on integration into existing workflows, SDU's technology offers easy adoption for a greener building and architectural sector.
The Technical University of Denmark (DTU) is a leading research institution focusing heavily on advanced engineering and technology, including state-of-the-art robotic 3D printing. DTU is equipped with large robot arms, such as the KUKA KR 300, enabling 'Big Area 3D prints' using polymers and construction materials for large-scale applications. The university maintains sophisticated Additive Manufacturing Labs that conduct comprehensive research in metal additive manufacturing, specifically Laser Powder Bed Fusion (LPBF) and Wire Arc Additive Manufacturing (WAAM), exploring applications up to in-space technology. Furthermore, DTU utilizes custom-built systems like AMANDA for high-resolution photopolymer, ceramic, and metal components, along with commercial systems and Binder Jetting facilities for diverse material research. This extensive capability portfolio supports innovation across numerous fields, including resilient energy systems, health technology, and smart manufacturing.
The Czech Institute of Informatics, Robotics and Cybernetics (CIIRC CTU) is a prestigious university institute of the Czech Technical University in Prague. Founded in 2013, CIIRC CTU serves as a vital hub for interdisciplinary cooperation in informatics, robotics, and cybernetics. The institute actively promotes the transfer of know-how toward industry, specializing in fields such as artificial intelligence, robotics, and computer vision. In its 3D Printing Centre, CIIRC CTU utilizes advanced equipment like the Meltio Engine for multi-axis robotic printing and the Desktop Metal Studio system for metal 3D printing. For partners, the institute offers expert consultations on the specific use of this technology and the production of prototype parts to verify the possibilities of 3D printing for various applications.
The University of Cyprus, a leading research institution, operates a state-of-the-art Wire Arc Additive Manufacturing (WAAM) facility for robotic 3D printing. This cutting-edge facility utilizes an ABB IRB 2600 robotic arm, known for its high accuracy and optimized design for applications like arc welding, ensuring high-quality metal component production. The robotic arm works in conjunction with advanced Fronius CMT TPS 500i welding equipment, which allows for fully-automated bimetallic WAAM techniques. This system supports innovative research and development in additive manufacturing, producing metal components layer-upon-layer using welding wire as the primary consumable. For inquiries regarding research and collaboration, you may contact Dr. Nicolas Hadjipantelis.
Thomas More is a leading University of Applied Sciences and a key Research Institution located in Belgium, with its campus in Sint-Katelijne-Waver. The institution specializes in technology and research, as reflected in its course offerings like Automotive Technology and Electronics-ICT. They actively contribute to the field of robotic 3D printing by offering advice on hard and software for Large Format Additive Manufacturing (LFAM). Furthermore, Thomas More demonstrates its commitment to innovation with its Mobile LFAM setup, known as AMobile, which is used for demonstrations. The Sint-Katelijne-Waver campus, located at Jan De Nayerlaan 5, is an important hub for these technology and engineering programs.
The University of Liege is a leading research institution actively engaged in cutting-edge robotic additive manufacturing. Their research focuses on sustainable construction, specifically using 6-axis robotic arms for precise and complex deposition of earth-based materials, such as clay mixed with algae fibers, for architectural applications. Beyond sustainable materials, the university also houses the Metallic Materials for Additive Manufacturing (M2AM) service, a key part of the Aerospace and Mechanics Research Unit. This expertise allows them to explore advanced techniques in 3D printing across a diverse range of materials, including metals. This dual focus ensures they are pushing the boundaries of both eco-friendly and high-performance additive manufacturing technologies.
KU Leuven, located in Leuven, Belgium, is a leading Research Institution and University actively engaged in advanced Additive Manufacturing (AM). The university houses the prestigious KU Leuven Institute for Additive Manufacturing (Leuven.AM), which combines the expertise of over 200 experts across various departments to cover the entire AM process chain. Their research lines span from material development and manufacturing processes to simulation, characterization, design, and personalized applications. Specifically in robotic 3D printing, KU Leuven has adapted standard industrial welding robot arms, often utilizing processes like Fronius CMT, for Wire Arc Additive Manufacturing (WAAM) of metal components. This focused research includes process development, simulation, and advancing hybrid additive-subtractive manufacturing techniques, positioning KU Leuven at the forefront of industrial AM innovation.
Ghent University is an internationally renowned, open, and socially engaged research institution located in Ghent, Belgium, and a prominent fixture in Europe. With a history spanning over 200 years, the university offers more than 200 academic programs and is committed to conducting in-depth research across a wide range of scientific domains. Under the credo "Dare to Think," the university serves as a haven for courageous thinkers. In the field of robotic 3D printing, Ghent University offers design consultancy services and is actively involved in cutting-edge projects, including the development of topology optimized 3D-printed concrete structures, such as the 5-meter-long OptiBridge. The institution is also known for innovative robotics research, having recently updated a modular hexapod robot resembling a 3D printed scorpion.
DesignLab UAI is a leading research institution and university lab based in Santiago, Chile. As part of the Universidad Adolfo Ibáñez, DesignLab UAI focuses on research-oriented projects and collaborations, particularly in robotic 3D printing. The main facilities are located at the Campus Peñalolén at Diagonal Las Torres 2640, with additional sites including Campus Viña del Mar and Sede Vitacura. They offer robotic 3D print offerings on demand, advancing innovative manufacturing and design processes within an academic setting. Contact can be made through the general university contact information or directly via their dedicated Fab Lab UAI contact details.
Johannes Kepler University Linz (JKU), established in 1966, is a public research institution located in Linz, Upper Austria, serving approximately 24,000 students. The university's Creative Robotics Lab is actively engaged in innovative 3D printing research. They utilize versatile industrial robotic arms as advanced 3D printers, capable of fabricating soft robots. This cutting-edge work involves using biodegradable gels and other polymeric materials, specifically exploring multi-material and bio-inspired applications for future technological advancements. JKU offers a wide range of degrees across various fields including engineering, science, and medicine.
ADMiRE Research Center is a prominent research institution affiliated with the Carinthia University of Applied Sciences in Villach, Austria. We specialize in cutting-edge research across ADditive Manufacturing, intelligent Robotics, and Embedded Sensors. Our expertise in robotic 3D printing includes sensor integration, slicer development, and customized gripper solutions, along with mobile robotic 3D printing capabilities. Furthermore, we are committed to sustainable practices, focusing on areas like material selection and testing, the reuse of natural waste material as fillers in bio-based polymers, and fiber-reinforced materials for lightweight construction. We offer comprehensive solutions ranging from hardware integration and medical device development to specialized training and education in these advanced fields.
The University of Coimbra is a highly respected institution, originally founded in Lisbon and finally established in Coimbra, Portugal, in 1537. Beyond its rich history, which dates back to 1290, the University is actively involved in cutting-edge research, including the development of advanced robotic metal additive manufacturing systems. In collaboration with SINTEF (Norway), their research leverages a 6-axis Direct Energy Deposition (DED) setup, enabling the large-scale production of metal parts. These systems incorporate integrated simulation and process optimization capabilities to ensure precision and efficiency. As a leading research institution, the University of Coimbra continues to drive innovation, contributing significantly to advancements in 3D printing and manufacturing technology.
The German Aerospace Center (DLR) - Institute of Structures and Design is a leading Research Institution and University located in Stuttgart, Germany. The Institute specializes in developing high-performance structures for sectors including aerospace, automotive engineering, and energy technology. DLR itself is the national research center for aeronautics and space, actively involved in numerous other areas such as energy, transport, and security across 20 locations. The Stuttgart site focuses on advanced research and technology development, often going beyond conventional methods to deliver significant technological advances. Their offerings in Robotic 3D Print specifically focus on cutting-edge research and technology development in this rapidly evolving field.
Deakin University is a leading Australian research institution located in Geelong, Australia. As a university specializing in innovative research, Deakin is known for turning great ideas into lasting positive impact. Their cutting-edge work includes an advanced Additive Manufacturing Lab and a focus on soft robotics. Specifically, their robotic 3D print offerings include pioneering research in 4D printing, soft grippers, soft actuators, and soft sensors. Deakin is recognized as Australia's 6th leading research institution and is dedicated to solving global social, economic, and environmental challenges.
MAGGAI is a System Builder specializing in the large-scale robotic additive manufacturing of structural thermoplastic components for demanding industrial applications. Our innovative approach centers on hybrid production cells, which seamlessly combine robotic extrusion-based 3D printing with advanced in-situ process control and post-processing, including milling, finishing, and assembly. This integrated workflow is designed for efficiency and is crucial for achieving certification-relevant, load-bearing structures with dimensional accuracy. We are deeply committed to circular production, developing structural Additive Manufacturing (AM) methodologies that utilize recycled and bio-based thermoplastic composites. Based in Rotterdam, The Netherlands, MAGGAI bridges applied research and industrial deployment to deliver certified, scalable, and circular production of large functional structures for the maritime, infrastructure, and mobility sectors, moving far beyond simple prototyping.
Coral Construction Technologies is redefining the construction industry with a revolutionary mobile robotic 3D Concrete Printing (3DCP) solution, perfectly suited for both on-site construction and prefabrication projects. Our core innovation is a patented print head that utilizes a unique 2K approach, dynamically dosing standard accelerators to enable printing with common, locally available ready-mix concrete rather than expensive proprietary mixes. This system incorporates adaptive "print intelligence," which automatically adjusts speed, material flow, and additive dosage for optimal results, even on complex non-planar geometries. The proprietary DatICE system further enhances predictability and quality through continuous collection and analysis of process and environmental data. By automating the most demanding part of the build, Coral 3DCP eliminates formwork and significantly reduces concrete consumption by up to 70 percent, delivering complex structures with unmatched speed, as showcased by our work on the Church of the Holy Trinity and the world's first 3D-printed restaurant.
ADDere, a division of Midwest Engineered Systems (MWES), specializes in Laser-Wire Additive Manufacturing (LWAM), a proprietary Directed Energy Deposition (DED) process designed for printing high-complexity, large-scale industrial-grade metal components. Our cutting-edge system uses a high-powered laser and pre-heated wire feed to deposit metal in near net-shapes, achieving best-in-class metallurgical quality with part densities greater than 99.99%. Unlike fixed gantry systems, ADDere utilizes a robust 6-axis industrial robot with additional external axes, providing superior flexibility and accuracy for building complex geometries. The technology supports a vast range of industrial-grade metal alloys, including carbon steel, titanium, Inconel, and other superalloys. By offering both complete additive systems and printing services, ADDere provides a scalable, cost-effective alternative for producing mission-critical parts across industries such as aerospace, defense, and energy.
Printed Farms is a pioneering force in robotic 3D construction printing (3DCP) in Florida, having introduced and utilized COBOD’s high-speed BOD2 gantry printer for its projects. The company successfully printed Florida’s first permitted building, a 24 ft x 21 ft garage, establishing a new benchmark for construction in the state. Their central mission is to commercialize 3D-printed construction to combat the large housing deficit and declining building quality by delivering safer, hurricane-resistant, and green structures. Printed Farms has also demonstrated its large-scale capabilities by constructing what it calls the world's largest 3D-printed building, a luxury horse barn spanning over 10,000 square feet. Furthermore, the company is developing BluePrintz, an innovative building system designed to create a fully integrated, easily adoptable solution that will significantly reduce the cost and labor required for mass housing projects.
SQ4D is leading the construction revolution with its Autonomous Robotic Construction System (ARCS), a state-of-the-art platform for 3D printing concrete homes and commercial structures. This innovative system enables the construction of full-size, durable buildings faster and more efficiently than outdated traditional methods, drastically reducing costs for both builders and consumers. ARCS-built structures boast superior strength, often exceeding industry standards, and are designed for long-term resilience and fire resistance. Furthermore, the technology is highly sustainable, employing a low-power consumption process, locally sourced materials, and a commitment to Zeero Waste™ construction. SQ4D proudly holds the distinction of having built America's first permitted 3D-printed home listed for sale, a milestone that proves our commitment to delivering safer, more affordable housing solutions for the future.
Mighty Buildings, now operating as a brand of LUMUS INC., is transforming the construction industry by leveraging advanced 3D printing, robotics, and automation to create beautiful, affordable, and sustainable factory-built homes. Their core technology revolves around a proprietary thermoset composite known as Light Stone Material (LSM) or LUMUS™ Material, which is significantly stronger, lighter, and more environmentally friendly than traditional concrete. Custom-designed 3D printers, such as the massive Big G, extrude and UV-cure this 60% recycled material to produce high-performance wall panels and components off-site with unmatched precision. These components are then delivered as the Mighty Wall System™, a complete, ICC-certified kit-of-parts that allows for the rapid assembly of resilient, fire-resistant, and highly insulated building envelopes on the construction site. By automating up to 80% of the construction process and committing to carbon neutrality by 2028, Mighty Buildings is providing scalable solutions to the global housing and climate crises.
Relativity Space is revolutionizing spaceflight by creating the world's first fully 3D-printed, reusable rockets, starting with the Terran 1 and the larger Terran R. Their end-to-end additive manufacturing platform dramatically simplifies the supply chain and compresses production timelines, enabling them to build complex structures with unprecedented speed and agility. This groundbreaking hybrid system integrates robotic wire-arc additive manufacturing (WAAM), powder bed fusion (PBF), and traditional processes to efficiently produce both large-scale metal structures and high-performance engine components. At the heart of their innovation are proprietary Stargate printers, which utilize multi-axis robotic arms, real-time monitoring, and AI-driven controls to ensure every rocket part is printed with optimized geometry. By leveraging this cutting-edge robotic 3D printing technology, Relativity is charting a new course for industrial production and accelerating humanity's expansion into an interplanetary future.
Orbital Composites revolutionizes manufacturing with autonomous robotic systems and AI to 3D print mission-critical, high-performance composite parts at scale for the defense and aerospace industries. Their advanced robotic 3D printers specialize in manufacturing continuous fiber composites using aerospace-grade materials, resulting in structures that are significantly lighter than metal and suitable for extreme environments. The Orbital e- system, for example, utilizes a six-axis robotic arm and a large 1.2 m × 1.2 m platform, accommodating diverse processes like pellet extrusion, thermoset extrusion, and continuous fiber deposition. Orbital offers an all-digital, hyper-scalable workflow designed to take customers seamlessly from proof-of-concept demonstrations to pilot production and high-volume manufacturing. By eliminating the need for tooling and achieving up to a 75 percent reduction in labor, Orbital Composites provides a cost-competitive and efficient solution for next-generation hardware.
ICON is revolutionizing homebuilding by integrating advanced construction robotics, software, and proprietary materials to 3D-print homes and large-scale structures. Their core system, the Vulcan printer, works with the Magma mixing unit to utilize Lavacrete, a proprietary, high-strength, low-carbon concrete. This advanced technology allows ICON to build resilient, single-story homes with significantly less waste and labor than traditional methods. ICON's mission is to solve the global housing crisis by creating more affordable, sustainable, and high-quality housing. They have successfully completed landmark projects, including building the first fully permitted 3D-printed home in the US and developing communities for social and affordable housing in partnership with organizations like Lennar and Mobile Loaves & Fishes.
Caracol North America is a leader in robotic Large-Format Additive Manufacturing (LFAM), providing advanced, turnkey solutions built in the USA for the North American market. Our flagship offerings include the Heron AM platform, a modular robotic system featuring 6+ axes and a robotized extrusion head for large-scale composite and polymer printing, and Vipra AM, an adaptive metal platform specializing in large-scale Direct Energy Deposition/Wire Arc Additive Manufacturing (DED/WAAM). These integrated systems, powered by our proprietary Eidos Manufacturing software, are designed to produce large, complex, high-performance parts with superior efficiency and sustainability. We serve demanding industrial sectors such as aerospace, automotive, marine, and architecture, offering solutions that reduce lead times and optimize production workflows. Beyond selling our advanced robotic platforms, Caracol North America provides comprehensive on-demand manufacturing services, guiding clients from initial design and engineering through production, post-processing, and quality certification.
Branch Technology is revolutionizing the construction industry with its patented Cellular Fabrication (C-Fab®) freeform 3D printing process. This groundbreaking technology combines large-scale additive manufacturing, prefabrication, and digital tools to create complex, open-cell lattice structures for building facades and architectural elements. Industrial robots precisely extrude carbon-fibre reinforced polymer into the unique C-Fab® matrix, enabling high-strength, lightweight designs previously unattainable with traditional construction methods. Inspired by natural cellular structures, this direct digital manufacturing approach unlocks unprecedented design freedom for architects and drastically reduces material waste on site. The resulting product line, including the BranchClad® mass-customized rainscreen systems, offers exceptional performance, resource stewardship, and dramatically shorter installation timelines.
Black Buffalo 3D is a global leader poised to revolutionize the construction industry by providing cutting-edge, ICC-ES code-compliant 3D construction printing solutions. We offer our advanced NEXCON gantry-based 3D printers, proprietary cement-based inks—like our AC509 certified PlanitopTM 3D material—and comprehensive training services. Our technology extrudes concrete layer by layer to quickly and efficiently build structural walls and components for single to multi-story residential and commercial structures. This innovative additive manufacturing approach significantly reduces labor costs, project timelines, and construction's carbon footprint. By meeting the stringent ICC-ES AC509 standards, Black Buffalo 3D provides clients with the assurance of a coded, structural alternative to traditional building methods, helping to address global affordable housing and infrastructure deficits.
Continuous Composites, based in Coeur d’Alene, Idaho, is revolutionizing composite manufacturing with its patented Continuous Fiber 3D Printing (CF3D®) technology. This integrated, full-stack platform combines high-accuracy, multi-axis robotic control with a proprietary end-effector that deposits continuous dry fiber impregnated with a snap-curing, UV-activated thermoset resin. The CF3D Enterprise® system, paired with CF3D Studio™ software, enables precise fiber steering and real-time curing, eliminating the need for rigid molds and drastically accelerating production cycles. By printing structures with fibers placed along load paths, CF3D creates lightweight, mission-grade composite parts for critical applications that rival metal in strength and performance. Trusted by major partners like Siemens, Arkema, and the U.S. Air Force Research Laboratory, this platform is the choice for aerospace, defense, and high-temperature structural components. This cutting-edge technology delivers superior structural performance and geometric flexibility, solving key bottlenecks in traditional composite manufacturing processes.
Apis Cor is revolutionizing the construction industry with proprietary mobile 3D printing technology designed to build durable concrete homes faster, smarter, and more efficiently. Our unique on-site robotic system, featuring the 'Frank' printer and 'Gary' mixing unit, eliminates the need for complex logistics and minimizes human intervention, allowing for rapid deployment and setup in under 30 minutes. By extruding special concrete-like material, we are able to print the wall structures for a typical single-family home in approximately 40 hours, offering cost savings of up to 33% compared to traditional masonry methods. Apis Cor's proven technology holds the Guinness World Record for the largest 3D-printed building and was awarded top honors in NASA's 3D-Printed Habitat Challenge, demonstrating its scalability for both Earth and beyond. We are dedicated to empowering homebuilders with autonomous construction robotics to address global housing shortages by delivering fully permitted residential houses and commercial structures in the U.S.
ADDiTEC is a pioneering leader in advanced metal manufacturing, offering a full spectrum of cutting-edge 3D printing solutions tailored for industrial and defense applications. We design and manufacture robust metal 3D printers utilizing three complementary technologies: proprietary Liquid Metal Jetting (LMJ), high-power 6kW Laser Directed Energy Deposition (LDED), and Laser Powder Bed Fusion (LPBF). Our revolutionary LMJ technology, protected by over 300 patents, is a drop-on-demand process that uses molten metal to produce high-resolution, dense metal components cleanly and safely, as proven by its successful implementation with the U.S. Navy. These systems are often integrated into deployable robotic architectures, such as the AMDROiD series, and the HYBRiD multi-technology platform which seamlessly combines both additive and subtractive capabilities. By leveraging LMJ's precision and LDED's high deposition rate, ADDiTEC empowers industries like aerospace and defense to achieve unparalleled quality, multi-material versatility, and efficiency with the lowest part production cost in the industry.
Alquist 3D is revolutionizing the construction industry by integrating advanced robotics, sustainable materials, and cutting-edge 3D printing technology. This innovative combination allows them to completely transform the building process from the ground up, moving beyond traditional methods. Their proprietary approach dramatically accelerates construction timelines while simultaneously delivering structures of superior strength and durability. By prioritizing sustainable materials and minimizing construction waste, Alquist 3D is actively working to lower overall costs and significantly reduce the environmental impact associated with building. They are dedicated to delivering high-quality, long-lasting structures that rise quickly and contribute to a more sustainable future for residential and commercial development.
Divergent Technologies is revolutionizing industrial manufacturing with its patented Divergent Adaptive Production System (DAPS™). This end-to-end digital manufacturing platform tightly integrates AI-driven design, industrial-rate additive manufacturing (metal powder bed fusion), and universal robotic assembly to produce complex, ultra-lightweight structural parts. DAPS eliminates the need for expensive, design-specific tooling and enables manufacturing that is faster, more flexible, and significantly lower cost than conventional methods. Originally deployed for luxury automotive OEMs like Aston Martin and Bugatti, Divergent has rapidly expanded into the aerospace and defense sectors, securing contracts with key partners such as Saab, General Atomics, and the U.S. Air Force EWAAC Program. By delivering structures with enhanced performance and dramatically shorter development cycles, Divergent is transforming the economics and scalability of production for high-value industries globally.
Contour Crafting Corporation (CC Corp), founded by the renowned "Father of Large-Scale 3D Printing," Dr. Behrokh Khoshnevis, is the technology leader in the construction 3D printing industry. The company develops revolutionary, deployable construction 3D printers, including the advanced D-Crafter and CrafTrans systems, which utilize proprietary extrusion-based concrete printing. CC Corp's patented Contour Crafting technology uses specially designed robotic systems to quickly construct buildings directly from CAD designs, often capable of printing a structure in less than 24 hours. This pioneering approach is actively addressing the global affordable housing crisis by creating rapid, cost-effective, and highly efficient solutions for residential buildings and infrastructure. Their visionary work also extends to extraterrestrial applications, partnering with organizations like NASA to develop systems for constructing habitats on the Moon and Mars. With over 100 patents and multiple international awards, CC Corp sets the benchmark for innovation in large-format 3D printing.
AI SpaceFactory is pioneering advanced, large-scale additive manufacturing technologies for both space exploration and terrestrial construction, driven by a mission to extend human capability and reduce our collective carbon footprint. We achieved global recognition by winning the NASA 3D Printed Habitat Challenge with our MARSHA design, a vertically oriented Mars habitat constructed using a high-autonomy, recyclable basalt-fibre and biopolymer composite. This space-proven technology has been brought to Earth with the creation of TERA, an eco-friendly 3D-printed dwelling that uses sustainable, bio-degradable materials and autonomous construction methods. Our commercial robotic printing offerings include ASTRA, a full-stack robotic arm printer that utilizes recycled materials and automated tool-path algorithms for large-scale projects. Furthermore, we offer the modular Starforge gantry system, a large format fused granular fabrication (FGF) platform engineered for exceptional precision and massive build volumes in industrial applications.
Optomec is a world-leading provider of Directed Energy Deposition (DED) additive manufacturing systems, anchored by its patented Laser Engineered Net Shaping (LENS) technology. The LENS process utilizes a high-power laser and a controlled powder feed system to precisely fabricate, enhance, and repair high-value metal components layer by layer. This unique method enables the addition of material to worn or damaged areas with minimal heat input, which is crucial for sensitive components like those found in gas turbine engines, minimizing distortion and the heat-affected zone. The LENS repair process produces superior material properties often equivalent or superior to wrought materials, and supports a wide range of high-performance metals, including titanium, stainless steel, and Inconel. By leveraging this industrial-proven technology, Optomec offers robust solutions for high-value component repair and new part manufacturing across the Aerospace, Defense, and Energy industries.
WasteMine Pte. Ltd. is a premier System Builder based in Singapore, specializing in innovative solutions for industrial-scale 3D printing. We are dedicated to promoting sustainability by being a leading provider of eco-friendly biopolymer materials for additive manufacturing. Our core competency lies in comprehensive systems integration, ensuring seamless and efficient operation of advanced 3D printing applications. Furthermore, WasteMine offers specialized Advanced Biopolymers specifically formulated for Large Format 3D Printing projects, enabling clients to scale their production capabilities significantly. We partner with industries looking to adopt sustainable practices without compromising on performance or output quality.
Breton's advanced solutions in the GENESI range are among the most "Industrial Ready," utilizing AI algorithms and extensive libraries of pre-characterized materials to produce a wide array of thermoplastic parts, from prototypes to large molds for autoclave curing. Founded in 1963 by Marcello Toncelli, Breton is an international group specializing in the design and production of state-of-the-art industrial machinery and plants. Beyond additive manufacturing, the company is a pioneer in developing advanced technologies for processing natural stone, ceramics, mineral surfaces, and machining metals and plastics. By combining FDM extrusion systems with Breton milling units—renowned in the subtractive sector—Breton enables the use of fully integrated additive-subtractive hybrid cells. Operating globally, Breton is present in over 100 countries worldwide, with a workforce of approximately 1000, bringing over 60 years of expertise and more than 1700 patented inventions to the manufacturing industry.
Oxido Studio is a creative and multidisciplinary company based in Barcelona, Spain, specializing in the intersection of art, engineering, craftsmanship, and digital production. We approach every project with an artistic viewpoint, focusing on the details from the initial concept through to execution to build unique works. Our services include advanced robotic 3D print offerings such as structural simulation, material suggestions, mirror polishing of surfaces, and precision milling with KUKA robots. Beyond additive manufacturing, we provide comprehensive design consultation, CAD design, and a full range of designing services. We leverage our diverse background to deliver top-tier creative and technical solutions, transforming ideas into tangible, high-quality projects.
MetalWorm is a leading System Builder based in Ankara, Turkey, specializing in industrial robotic additive manufacturing solutions. The company operates primarily through two key business models: developing and integrating turnkey WAAM (Wire Arc Additive Manufacturing) systems, and providing benchmarking and application validation projects. These services showcase the efficiency and adaptability of WAAM and DED technologies across various industrial sectors. MetalWorm ensures global coverage and continuous support for its users through sales and service offices in Germany and the USA, complemented by a growing network of international resellers. Leveraging strong software and process engineering capabilities, MetalWorm provides comprehensive assistance throughout the entire additive manufacturing workflow, delivering tailored solutions for complex industrial needs.
DEEP Manufacturing Limited, based in Bristol, UK, is a system builder specializing in large-scale metal additive manufacturing. We operate one of the world's largest concentrations of Wire Arc Additive Manufacturing (WAAM) systems at our Advanced Manufacturing Centre of Excellence. Our flagship offering is the "HexBot," a state-of-the-art, six-arm robotic system for Wire Arc Directed Energy Deposition (DED), also known as WAAM. The HexBot enables the ultra-large-scale production of complex, high-strength metal parts, capable of manufacturing components up to 6.2 meters in diameter and 3.2 meters in height. We deliver unmatched scale, quality, and speed to critical sectors including offshore, maritime, energy, aerospace, and defense.
WAAM3D is a global leader specializing in state-of-the-art Wire Arc Additive Manufacturing (WAAM) technology and solutions. They develop and offer robot-based turnkey systems, such as the RoboWAAM XP and MiniWAAM, for the production of large metal components with advanced process control. This technology is instrumental in creating outstanding AM solutions for large-scale industrial parts across materials like titanium, steel, bronze, nickel, and aluminum. WAAM3D also provides the first end-to-end software workflow for large-scale metal 3D printing, covering tool path planning, deposition simulation, process monitoring, control, and data analysis. By implementing WAAM, customers can achieve significant cost savings, waste reduction, and improved environmental performance while benefiting from forged-like mechanical properties through patented in-process cold-work solutions.
AVENCO 3D / Avenco Robotics is an Istanbul, Turkey-based System Builder specializing in advanced robotic 3D printing solutions. The company offers both fixed and mobile robotic 3D printer models for versatile indoor and outdoor production needs. They specialize in both Robotic 3D Thermoplastic Printer and Robotic 3D Concrete Printer technology, providing comprehensive turnkey solutions. AVENCO 3D's printers can process various raw materials, including concrete, cement, clay, ceramics, and plastics, creating durable products. The company boasts a significant global presence, having contributed robot cells, engineering, hardware, and software support to customers across 34 countries on six continents, with solutions integrated into major projects like airport and metro construction.
Alloy Additive specializes in providing turnkey solutions for metal additive manufacturing, focusing on the high-performance Wire Arc Additive Manufacturing (WAAM) process. Our deep metallurgical expertise allows us to optimize production using a variety of high-strength materials, including titanium, nickel, Inconel, and Invar, suitable for the most demanding applications. We leverage technical excellence in materials, robotics, and software to deliver large-scale printing services quickly, accurately, and cost-effectively. Beyond standard production, our offerings include critical services such as design optimization, repair of existing components, hybrid manufacturing integration, and custom machine development. Alloy Additive is built on persistence and innovation, ensuring we meet our clients' needs for exotic metal manufacturing without the usual wait times.
RAMLAB is dedicated to the advanced repair and manufacturing of metal parts, driving innovation in additive manufacturing. We offer turn-key Wire Arc Additive Manufacturing (WAAM) solutions, specifically our MaxQ 3D Print and MaxQ Repair systems, for manufacturing and repairing metal components. These cutting-edge systems provide unparalleled quality through real-time weld monitoring and control software and hardware. RAMLAB's technology helps customers save operational time, cut labor costs, and scale their businesses by imposing no physical limitations on part size, making it a game-changer for intricate components and large, heavy-duty structures. With a streamlined process, RAMLAB ensures fast, adaptable, and efficient metal additive manufacturing and repair solutions, delivering systems within months and completing installation within days.
Established in 2014, MX3D is a pioneering technology company based in Amsterdam, The Netherlands, specializing in Wire Arc Additive Manufacturing (WAAM). They deliver scalable robotic 3D metal printing solutions globally, catering to high-value industries like Nuclear, Maritime, Oil and Gas, and Construction. At the core of their offerings are turnkey advanced robotic WAAM systems and proprietary MetalXL software, giving users complete control over the additive manufacturing process. MX3D also offers certified on-demand print production of industrial-grade metal parts, ensuring adherence to the strictest industry standards. By focusing on advanced path planning and real-time monitoring, MX3D aims to drastically reduce the manufacturing footprint and accelerate production for heavy manufacturers worldwide.
CyBe Construction, established in 2013 and based in Oss, The Netherlands, is an award-winning tech company focused on redefining construction through 3D Concrete Printing. They operate as System Builders, providing an integrated system that includes hardware, proprietary software (Chysel and Artysan), and co-developed material, CyBe Mortar, to simplify complex building processes. Their robotic 3D concrete printers, which include mobile (RC) and fixed (R, RT, GR) systems utilizing ABB robotic arms, are designed to extrude their specialized mortar for large-scale construction projects. By focusing on building automation, CyBe aims to deliver faster, more affordable, and sustainable construction solutions while tackling issues like labor shortages and material waste. Ultimately, CyBe is a one-stop shop for construction innovation, providing transparent insight, education, certification, and business development opportunities to help clients reduce construction costs and thrive in the industry.
CEAD B.V. is a leading provider of large-format 3D printing solutions, specializing in systems built around industrial robotic arms. Their offerings include the "Flexbot," a dedicated robot-based system, and standalone pellet extruders (E-series, S-series) designed for seamless integration with existing robotics. CEAD provides a total package, offering assistance with installation, product design, training, maintenance, and support to build complete production processes. They focus on advanced thermoplastic composites, including fiber-filled and recycled materials, enabling sustainable and cost-effective automation of business activities. Additionally, CEAD offers specialized closed-loop production systems, such as the Faber Navalis, which combines proprietary hardware, advanced materials, and dedicated software for reliable, high-performance, and completely automated large-scale 3D printing.
Vertico specializes in providing advanced robotic 3D concrete printing systems and comprehensive solutions. We offer a full range of concrete 3D printing solutions tailored to fit unique needs, including our flagship Accelerator Printhead, 6-axis robotics, and specialized software. Vertico's integrated solutions, such as the Solo Robot and Robot on Track, enable large-scale concrete extrusion for industrial, construction, and educational applications. Our work leads the way in design and layer quality, demonstrated by pioneering projects like the Diamanti Bridge and Minimal Vault. Located in Eindhoven, The Netherlands, Vertico is dedicated to turning visionary ideas into reality through state-of-the-art technology.
Ziknes is a leading System Builder based in Valencia, Spain, specializing in fully integrated robotic additive manufacturing systems for industrial production. The company's portfolio includes solutions for both metal, utilizing Wire Arc Additive Manufacturing (WAAM), and large format polymer manufacturing through pellet extrusion (FGF). Ziknes excels in Large Format Additive Manufacturing (LFAM), offering robust equipment like the Z. Pellet and the compact Z-Pellet Kompact, designed for various scales of industrial and educational applications. Beyond hardware, Ziknes provides comprehensive support, including the Laminar software for slicing, simulation, path planning, and real-time control, ensuring full traceability and precise manufacturing control. Committed to helping companies transition to robotic 3D printing, Ziknes provides the necessary expertise and tailored solutions to seamlessly integrate LFAM into existing production workflows.
Meltio is a leading Spanish company based in Linares, Europe, specializing in affordable and reliable metal 3D printing solutions. Their core offering involves innovative wire-laser Directed Energy Deposition (DED) technology. Meltio manufactures metal 3D printing solutions designed to integrate seamlessly with industrial robotic arms, such as the "Meltio Engine," enabling the creation of advanced metal additive manufacturing (AM) systems. Their mission is to continually reinforce their status as disruptors by pioneering safe and easy-to-use technology for customers, partners, and employees. Meltio is building a robust ecosystem with over 300 partners across hardware, software, material suppliers, sales, integration, research, and industrial companies, demonstrating their commitment to advancing the future of manufacturing.
CNC Bárcenas / Discovery 3D Printer is a System Builder specializing in industrial machinery, including CNC systems, multi-axis milling machines, and large-format 3D printers. Based in Valdepeñas, Spain, the company prides itself on 100% Spanish design, development, and manufacturing. Their industrial 3D printers, marketed under the Discovery 3D Printer brand, utilize Fused Filament Fabrication (FFF) and Fused Granulate Fabrication (FGF) technologies, allowing for the use of both filament and direct pellet extrusion. Launched in 2015, these systems were pioneering in Europe and are capable of handling long-term jobs on large parts using engineering plastics. CNC Bárcenas offers various models, such as the Super Discovery 3D Printer and the Hybrid model, providing custom solutions adapted to the demanding requirements of Industry 4.0 across all industrial sectors.
EVOCONS is pioneering the future of construction through robotics, Artificial Intelligence, and 3D printing technology, automatically transforming designs into real buildings. At the core of their solution is the EvoConstructor®, the first multifunctional robot specifically designed for the construction industry, capable of tasks far beyond printing, such as pouring concrete, leveling, tiling, plastering, and polishing. This versatile robot features a Plug & Play modular system with interchangeable tools and self-lifting capability, making it the most advanced solution for both on-site industrial construction and prefabricated projects. Beyond hardware, EVOCONS provides comprehensive solutions including staff training, CAD/CAM software, construction management tools, and develops local material formulations. By automating up to 60% of the process, EVOCONS helps clients build up to four times faster, reduce costs by up to 30%, and achieve high precision (±1MM tolerance) in material execution, ensuring high-quality, sustainable constructions.
WASP is a leading Italian company in 3D printing, specializing in the development and manufacture of professional, large-scale 3D printers and robotic arm integration systems. Their offerings include robot-integrated systems that utilize both LDM (for clay, ceramics, and fluid-dense materials) and FGF (for plastic pellets and recycled plastics) technologies, ensuring versatile material capabilities for various applications. They have developed CEREBRO, an integration system that transforms any robotic arm into a 3D printer compatible with all WASP LDM and FGF extruders. This technology supports large format additive manufacturing and allows the use of diverse materials such as plastic pellets, clays, concrete mortars, and earth-based mixtures. WASP's commitment to innovation in robotic 3D printing makes them a key partner for industrial applications and large-scale projects like construction.
Caracol AM is a leader in Robotic Advanced Manufacturing, providing digitalized, turnkey solutions for large-scale, high-mix production. They develop Large Format Additive Manufacturing (LFAM) technologies that utilize robotic hardware and integrated software to manage the entire production process, from design to finished parts. Their platforms include "Heron AM" for large-scale composite and polymer parts using pellet extrusion, and "Vipra AM" for large-scale metal parts via Wire Arc Additive Manufacturing (WAAM). By combining expertise in generative design and additive manufacturing, Caracol aims to overcome the limits of traditional manufacturing, enabling more efficient, flexible, and sustainable industrial production. They offer a portfolio of qualified industrial-grade materials for polymer, composite, and metal additive manufacturing, ensuring high-quality and consistent results.
Aediltech, based in Benevento, Italy, is a dynamic System Builder specializing in advanced robotic 3D printing solutions. The company offers a comprehensive suite of services including 3D printing technologies and direct printing services. Beyond fabrication, Aediltech engages in crucial research projects, focusing on design and computational design methodologies to push the boundaries of additive manufacturing. They also develop proprietary software tailored for their specific applications. Notably, Aediltech contributes to the construction sector by facilitating the printing of entire buildings and various structural components.
YIZUMI Germany GmbH, located in Alsdorf, Germany (Europe), operates as a key System Builder within the global YIZUMI network, a world-class enterprise in advanced molding equipment and solutions. YIZUMI is committed to providing cost-effective and sophisticated molding equipment systems, including injection molding, die casting, and Thixomolding machines. Specifically focusing on additive manufacturing, YIZUMI Germany GmbH offers specialized resources such as the RampUp Center, Application Engineering Center, and New Technologies Center, supporting the innovative SpaceA industrial 3D printing line. As a leading molding equipment total solution supplier, YIZUMI has over 120,000 machines operating successfully worldwide and is dedicated to technological innovation and global influence. They strive to meet diverse customer demands through extensive service support and customized solutions.
LEAM Technologies GmbH, based in Haag a.d. Amper, Germany, specializes in advanced solutions for large-format polymer Additive Manufacturing (AM). The company offers add-on components that are retrofittable to extrusion AM machines, significantly improving layer bonding and material properties. This is achieved through their LED-powered technology, which provides contactless radiation within the visible spectrum, enabling full interlayer welding and isotropic material properties. Their solutions allow large-format 3D printers to process technically demanding, high-performance plastics like PEEK. Furthermore, LEAM supports proof-of-concept projects and operates a flexible Hardware-as-a-Service model to lower adoption barriers, scaling their solutions through strategic partnerships and industrial applications in sectors like aerospace and oil & gas.
GEFERTEC is a pioneer and technology leader in Wire Arc Additive Manufacturing (WAAM), offering advanced solutions for metal 3D printing. We specialize in the "arc machine series," which utilizes robust industrial robotic arms for the efficient and cost-effective production of large metal components. Our machines are installed worldwide, serving critical sectors such as the energy industry and aerospace. WAAM allows for the production of parts near-net-shape, significantly reducing material waste, CO2 emissions, and delivery times compared to conventional machining. As part of the Berlin. Industrial. Group., GEFERTEC is dedicated to providing reliable, scalable, and future-ready manufacturing solutions, supported by seamless system compatibility with trusted Siemens solutions.
1A Technologies UG, based in Hartmannsdorf, Germany (Europe), is a System Builder making a significant impact with its innovative 3D printing technology. Incorporated on April 7, 2020, this private limited company is active and focuses on developing cost-efficient and industrial-relevant solutions. They are known for their patented 3D extrusion tool, which utilizes cheap granulates and boasts a high output rate of 7kg per hour, enabling the printing of large industrial components. The company’s offerings are distinguished by a patented bypass nozzle concept for volume flow control, which eliminates the need for expensive melt pumps, and automated pressure regulation for consistent strand quality. Furthermore, their technology ensures damage-minimizing processing of fiber-reinforced plastics, securing them a German Innovation Award.
Constructions-3D is a leading System Builder based in France, dedicated to revolutionizing the construction industry with advanced robotic 3D printing solutions. The company's flagship product is the MaxiPrinter, a fast, mobile, and compact robotic arm system designed for high-flow concrete 3D printing directly on construction sites. The MaxiPrinter facilitates the large-scale fabrication of buildings and urban structures, offering rapid deployment and precise on-site positioning with its built-in laser system. Designed for versatility, this robust concrete 3D printer handles both indoor and outdoor environments, supporting various printing materials with grain sizes up to 6mm. Constructions-3D made history in 2019 by printing the world's tallest 3D printed building (14.14m) in France, underscoring their commitment to advancing digital construction by freeing architecture from technical constraints and reducing human, energy, ecological, and financial costs.
AMFREE specializes in large-scale metal additive manufacturing with the flagship AMFREE Machine, an all-in-one system utilizing patented Laser-Wire Directed Energy Deposition (DED) technology. This versatile robotic architecture is engineered for high productivity, multi-material capability, and extreme robustness, making high-performance metal AM accessible even for non-specialists. The technology enables competitive high-speed, multi-directional deposition with adjustable laser energy profiles for optimal material properties, quality, and accuracy. By managing energy and wire feed independently, AMFREE ensures a robust process with an ultra-wide operating window, bringing high metallurgical quality to high-volume production. The AMFREE Machine facilitates the production of large metal parts, repair operations, and hybrid manufacturing, incorporating AI-driven process control for faster builds and less waste.
AddUp is a global leader in additive manufacturing (AM), rooted in industry and focused on the future of digital manufacturing. We combine our founding partners' deep expertise to create reliable, repeatable, and industrial solutions, enabling customers to manufacture in a safer, cleaner, and more efficient way. AddUp specializes in industrial metal AM systems, delivering cutting-edge solutions across Powder Bed Fusion (PBF) and Directed Energy Deposition (DED) technologies, including large-format systems like the Modulo 400 and Magic 800. These machines are designed for integration with robotic systems to produce complex, multi-material, and repair-oriented metal components. By industrializing additive manufacturing, AddUp helps solve manufacturers' toughest challenges and sets industry standards for precision, efficiency, and reliability.
Addcomposites Oy, located in Espoo, Finland, is a System Builder dedicated to becoming the premier provider of advanced manufacturing solutions for the widespread adoption of composites. Our core mission is to design reliable and user-friendly advanced manufacturing systems, enabling the integration of composites into your production process. We offer a range of innovative products, including the AddCell tailored robotic cell solutions, the AFP-XS and AFP-X automated fiber placement systems, and AddPrint software for revolutionizing continuous fiber 3D printing. By leveraging trends in industrial robotics, our platform provides a cost-effective and accessible approach to composite production, helping manufacturers adopt high-performance components. Whether you require pilot projects or complete production-ready systems, Addcomposites delivers technical expertise and professional automation to enhance efficiency and safety in your manufacturing operations.
Rapid Fusion Ltd specializes in the design, manufacture, and delivery of Large-Format Additive Manufacturing (LFAM) solutions for polymer components, offering limitless possibilities in scale and design. Our primary AM platform, the "Apollo" system, is a modular and flexible turnkey solution built around industrial-grade components. It expertly integrates our powerful PE320 pellet extruder with a KUKA robotic arm, enabling high-speed, high-temperature plastic printing and robust, full-scale parts in hours, not days. All our pellet extruders and robotic 3D printing cells are designed and manufactured in the UK, ensuring exceptional quality and reliability. Rapid Fusion also offers other advanced platforms like Zeus, Medusa, and Cerberus, and is committed to pushing the boundaries of additive manufacturing through innovation and advanced technology.
3DEPOSITION is a university spin-off from the Brno University of Technology, specializing in advanced large-scale 3D printing solutions. Our mission is to transfer cutting-edge additive manufacturing and 3D printing technologies to the industrial sector. We provide comprehensive services and produce custom hardware, including robotic 3D printing cells and customized extruders for innovative materials like plastic and concrete. Our expertise covers R&D partnerships, commercial commissions for items like complex interior furniture, and the design and construction of bespoke Large-Format Additive Manufacturing (LFAM) systems tailored for creative industries. We also offer consulting in LFAM technologies and parametric modeling using tools like Grasshopper and Rhinoceros 3D to support ambitious large-scale projects.
FIS Robotics, a leading System Builder located in Genk, Belgium, is at the forefront of robotic 3D printing innovation in Europe. The company specializes in the complete production lifecycle of large-scale 3D printed parts, addressing the need for advanced manufacturing solutions. Furthermore, FIS Robotics is dedicated to developing sophisticated software specifically for robot 3D printing applications, optimizing efficiency and precision. Their expertise extends into machine building, ensuring that they can deliver tailored, robust robotic systems to their clients. This unique combination of large-scale 3D printing, software development, and machine building firmly establishes FIS Robotics as a comprehensive partner for industrial automation and additive manufacturing projects.
Concrenetics is a System Builder startup, founded in 2017 in Tournai, Belgium, with a vision to shift the construction paradigm towards digital fabrication. The company specializes in robotic 3D concrete printing, offering solutions to enable a sustainable fulfillment of expectations from an ever-growing world population. A key product is their 2K Printing Unit, a best-seller that converts a standard 1K setup into a bicomponent concrete printing system by integrating an inline mixing barrel and accelerator feeding system. Concrenetics leverages twenty-first-century technologies, such as their One-X series systems with layer heights from 5–30 mm and max flow rates of 10 l/min, to achieve a complete transition to digital fabrication. The company's innovative approach helps reduce the need for manual human labor while manufacturing 3D concrete printers for homes, structures, and R&D laboratories.
Jet Automation Engineering LTD. is an innovative System Builder based in Istanbul, Turkey. The company specializes in offering advanced robotic 3D printing solutions, including special design 3DCP (3D Concrete Printing) and 3DMP printers with varying sizes and capabilities. Committed to providing comprehensive solutions, they offer their professional lifetime license CAD/CAM software at no extra cost with their 3D concrete printers. This commitment makes them a strong partner for organizations looking to embrace the future of automated construction and manufacturing. Jet Automation Engineering focuses on delivering sophisticated technology and expertise to meet complex industrial automation needs.
3D-Components AS is an innovative Norwegian company specializing in robotic welding, additive manufacturing (AM), and artificial intelligence (AI). They provide an intelligent manufacturing control system with real-time monitoring and adaptive control capabilities for robotic-based AM processes. Utilizing advanced AI algorithms, the company achieves precise and automated process optimization, enhancing efficiency and sustainability in modern manufacturing. Furthermore, they are accelerating alloy innovation, developing AM methods that successfully combine traditionally exclusive properties like high strength and ductility in large-scale components. Their comprehensive offerings include advanced services for fast-track material discovery, process logging, and the industrialization of AM solutions across various sectors.
FormFutura, based in Nijmegen, The Netherlands, is a leading material provider specializing in Large-Format Additive Manufacturing (LFAM) products. They offer specialized solutions within various markets by providing a wide array of high-quality 3D printing materials. Their portfolio includes certified flame-retardant materials, medical-grade materials, and UV-stabilized materials, ensuring performance and compliance for demanding applications. FormFutura is known for its range of pellets and filaments, including PLA, PETG, and ABS, optimized for consistent performance in large-format environments. They also supply high-performance SLA resins and medical-grade materials like Centaur PP, supporting sustainable and precision-driven manufacturing workflows.
Transmare CirQlair is a specialist in the distribution and trade of Post Consumer Recycled Plastics, primarily supplying recycled consumer plastics to the manufacturing industry. We have established a strong track record over the years, providing easy printing compounds utilized in various large-scale applications. These include materials for sloops and boats up to 11 meters, as well as compounds for planters, furniture, seating elements, and architectural components. Our compounds are sustainably sourced, based on post-consumer materials like PP, HDPE, and PolyAl (from beverage cartons), aligning with our commitment to environmental responsibility. As Material Providers based in Rotterdam, The Netherlands, we reinforce The Compound Company's position as a specialty compounder in Europe.
FGF Technology BV is a leading material, knowledge, and solution provider specializing in all areas of Additive Manufacturing with polymer granules. We offer comprehensive support to ensure the successful realization of your 3D printed end products, covering everything from initial product design and proof of concept to prototyping. Our expertise includes both FGF (Fused Granulate Fabrication) and FFF (Fused Filament Fabrication) printing techniques, providing the necessary knowledge and guidance. We also assist with procuring essential equipment, such as print heads, printers, or CNC heads for post-processing, alongside necessary software solutions. Crucially, we develop and supply a wide range of specialized polymer compounds and masterbatches that are tailored to meet your specific product requirements and applications.
Polymaker is a leading developer and manufacturer of advanced extrusion-based 3D printing materials, globally recognized for its commitment to innovation, quality, and sustainability. They offer an award-winning product portfolio, empowering professionals and hobbyists alike to create better and innovate faster. A key innovation is their PolyCore™ product line, specialized pellet-based materials designed for Large Format Additive Manufacturing (LFAM) and Fused Granular Fabrication (FGF), which has been utilized in projects like the world's largest 3D printed pedestrian bridge. Polymaker continues to push the boundaries of 3D printing with cutting-edge technologies like Jam-Free™ and Warp-Free™, and a diverse range of filaments including PolyMide™ and PolyLite™ lines, ensuring optimal performance and compatibility across various industrial and consumer applications. With a focus on high-performance composites and recycled content, Polymaker is dedicated to simplifying the creation process and promoting circular manufacturing within the additive industry.
SMART MATERIALS 3D is a leading Spanish material manufacturer specializing in advanced filaments and pellets crucial for robotic and large-format 3D printing applications. They offer an extensive and specialized portfolio that includes materials like PLA, ABS, TPU, PEEK, PEI, and a variety of composite materials such as fiberglass and carbon fiber. The company is committed to sustainability, developing solutions using recycled plastics and biomaterials. Beyond standard offerings, SMART MATERIALS 3D focuses on creating customized material formulations tailored specifically for extrusion-based robotic additive manufacturing processes. This dedication to innovation ensures high-quality 3D printing filaments for industrial sectors, businesses, and makers alike.
Ashland Specialties Ireland is a leading provider of GMP medical-grade polymers, essential materials for advanced robotic 3D printing applications. Specializing as Material Providers, the company offers a comprehensive range of off-the-shelf polymers in granule form, including PLGA, PDLA, PLLA, PDLLA, PCL, and PLCL, available in various monomer ratios and molecular weights to meet stringent medical device specifications. Beyond standard offerings, Ashland excels in customized polymerization, tailoring polymer properties to specific customer project requirements. This commitment allows them to support innovations across diverse sectors, including medical and pharmaceutical industries where precision and quality are paramount. Located in Mullingar, Ireland, the company leverages its expertise to deliver specialized material solutions that drive the future of additive manufacturing.
3R Additive Technology (Shenzhen) Co., Ltd. specializes in providing high-performance metallic materials for the additive manufacturing industry. Leveraging independent and innovative cold forming technology, the company offers 100% recyclable, high-purity titanium powder to its partners. Their flagship offering includes recycled Ti-6Al-4V (Gr. 5) titanium alloy powder, which is engineered to provide excellent performance, high fluidity, and a low hollow powder rate for 3D printing applications. This material is designed as a cost-effective solution for high-strength pure titanium requirements. By focusing on sustainability and advanced material science, 3R Additive empowers partners in the field of additive manufacturing with cutting-edge metallic powder solutions.
FibeCycle is a Canadian Material Provider dedicated to creating engineering-grade recycled materials for robotic 3D printing. The company has reimagined how wind turbine blade waste is handled, moving away from traditional landfill disposal or incineration towards a planet-friendly recycling approach. By combining reclaimed fiberglass from wind turbine blades with recycled plastics, FibeCycle delivers composites with enhanced mechanical performance and substantial carbon savings. Their low-energy process requires no water, harmful chemicals, or pyrolytic techniques, ensuring minimal CO2 generation. This modular and scalable solution bolsters the circular economy, enhances the sustainability of the wind industry, and transforms waste into value globally.
ADAXIS is a French-Swedish robotics software company founded in 2021 with offices in Bayonne, France; Gothenburg, Sweden; and Los Angeles, US. The company's mission is to advance the use of industrial robotics, enabling the manufacturing of more sustainable and innovative products. ADAXIS specializes in developing AdaOne, a powerful software platform for robotic hybrid manufacturing. This platform integrates additive, subtractive, and scanning processes, allowing users to transform industrial robotic arms into flexible 3D printers on demand. AdaOne facilitates multi-axis toolpath generation, simulation, and robotic control for large-format workflows in polymer, metal, and concrete, supporting world-leading companies in sectors like automotive, aerospace, manufacturing, construction, and interior design.
Dyze Design, headquartered in Montréal, Canada, is a manufacturer of advanced additive manufacturing solutions, specializing in 3D printer extruders, hotends, and components. Founded in 2015, the company aims to be the leading supplier of extrusion systems for all material extrusion printers globally. Their offerings include powerful, customizable 3D printing components for industrial-scale precision and efficiency, such as standalone pellet extruders designed for integration with cobots and industrial robotic arms. They also provide FFF high-flow industrial print heads for robotics and offer a turnkey robotic print cell using Kuka robots. Additionally, Dyze Design provides 3D printing services, especially for part validation.
Barcelona3Dceramics specializes in advanced ceramic 3D printing, combining innovative technologies with traditional ceramic artistry. As a design bureau and consultancy, they offer high-precision, large-format ceramic printing for both long series and single pieces. They employ four different ceramic additive technologies—including clay robocasting, ceramic DLP, ceramic SLA, and ceramic binderjet—to meet diverse project needs. Their expertise extends to specialized consultancy, technical support, and the provision of a wide range of high-quality ceramic materials for industrial, artistic, and scientific applications. Directed by Martí Baltà, Barcelona3Dceramics is committed to sustainability and innovation in ceramic manufacturing, offering solutions that allow for complex geometries and rapid prototyping.
ArcAngel Additive specializes in making advanced metal 3D printing accessible and providing comprehensive training for teams to leverage this technology fully. As a Design Bureau/Consultancy, they offer end-to-end services including design, optimization, simulation, verification, and manufacturing of metal 3D printed products, utilizing processes like WAAM, LMD, and PBF. Their capabilities encompass advanced analysis, multi-scale material and structural testing, and detailed inspection using technologies like XCT and laser scanning. The company focuses on analytical, shape, sizing, and topology optimization to ensure high-quality outcomes. Located in London, United Kingdom, with a registered office at 14/2e Docklands Business Centre, ArcAngel Additive is a private limited company dedicated to engineering related scientific and technical consulting activities.
More Than Layers (MTL) is an innovative computational design studio and co-creation platform specializing in Large-Scale Additive Manufacturing (LSAM), commonly known as large-format robotic 3D printing. We develop interior objects, furniture, and installations, collaborating closely with designers and manufacturers to bring ambitious concepts to life. Our commitment to sustainability is central to our process, as every product is meticulously crafted from recycled plastics, adhering to circular economy principles. MTL provides comprehensive services, including concept design, advanced computational design workflows like Blender Geometry Nodes, and expert guidance on design for manufacturing at scale. By combining industrial robots with a design-centric approach, we are redefining eco-conscious living and pushing the limits of modern design and production.