Directory of Robotic 3D Printing Companies
Universidad del Bio-Bio is a premier public research institution in Chile, recognized for its strong focus on engineering, architecture, and sustainable industrial innovation across its campuses in Concepción and Chillán. The university offers technical assistance and collaborative research through specialized centers like the Master in Wood Construction and the MacroFacultad consortium, which bridges the gap between academia and industry. With state-of-the-art laboratories and a commitment to regional development, UBB provides advanced solutions in fields such as renewable energy, automated manufacturing, and high-performance materials.
Tampere University of Applied Sciences (TAMK) is a premier Finnish institution that operates the advanced RoboLab Tampere, a FieldLab dedicated to 3D printing large-scale biocomposite and metal structures using industrial robots. As a key member of the Tampere Universities community, TAMK spearheads research into Industry 4.0 integration, focusing on visual programming, IoT-connected robotic cells, and sustainable circular bioeconomy materials. Through initiatives like the 3DTY and 3D Pirkanmaa projects, the university bridges the gap between academic research and industrial application, providing companies with cutting-edge tools and expertise to modernize manufacturing processes.
ROSO is an interdisciplinary research team and startup based at Feng Chia University in Taiwan that specializes in robotic construction and computational design. The laboratory develops autonomous construction robots and software, such as the TACO BIM system, to solve labor shortages and enhance precision in architectural and artistic projects. By integrating AI, computer vision, and digital craftsmanship, ROSO collaborates with industry leaders to revolutionize intelligent construction and create unique sensory experiences through innovative material applications.
Additivt Teknikcenter (ATC) in Hultsfred is a leading Swedish knowledge hub and innovation lab specializing in additive manufacturing and smart industry through a unique collaboration between the municipality and regional industry. The center offers comprehensive vocational and secondary education, featuring a modern machine park with over thirty 3D printers for metal and plastics, robotic large-scale printing capabilities, and advanced scanning equipment. By bridging the gap between academia and the private sector, ATC empowers students and entrepreneurs to develop sustainable solutions, ranging from recycled industrial prototypes to innovative 3D-printed healthcare equipment.
Wiitta Oy is a Finnish family-owned contract manufacturer with over 50 years of expertise in high-quality injection molding and large format additive manufacturing (LFAM). Operating from a 7,000-square-meter facility in Heinola, the company provides end-to-end solutions from product development and CAD design to assembly and logistics for industries such as automotive, defense, and interior architecture. Wiitta is ISO 9001:2015 certified and recognized for its sustainability initiatives, including the development of bioplastic and biocomposite solutions for a greener future.
Dash-CAE is a leading advanced engineering firm specializing in high-performance composite manufacturing and Large Format Additive Manufacturing (LFAM) for the automotive, aerospace, and motorsport sectors. With over 20 years of expertise, they offer end-to-end "turnkey" services from design and simulation to rapid prototyping and production, including their revolutionary TR01 carbon fiber monocoque chassis. By integrating cutting-edge robotics and sustainable 3D printing technologies, Dash-CAE delivers cost-effective, high-quality solutions with significantly reduced lead times for complex tooling and structural components.
Concreef EU is a Bulgaria-based manufacturing firm specializing in the development of innovative 3D concrete printed infrastructure for both interior and exterior applications. By merging advanced robotic technology with creative architectural design, they provide unique, sustainable solutions for modern construction and urban environments. Their expertise in large-scale additive manufacturing allows for the production of complex, custom-shaped elements that traditional methods cannot achieve.
MATES (Manufacturing Technologies in the Trinity of Man, Matter, and Machine) explores the intersection of robotic fabrication, material research, and adaptive manufacturing strategies through hybrid production environments. Founded by Sebastian Voigt, the research-led bureau utilizes collaborative robotic systems to integrate additive, subtractive, and formative methodologies within a substantial 6m x 2.4m x 3m build volume. The company specializes in sustainable, resource-conscious production, focusing on the development of experimental workflows and bioplastic evaluation to create customized, future-proof manufacturing solutions.
Founded in 1990 and based in Carpentras, France, ERM Automatismes is a leading technology company specializing in industrial automation, robotics, and didactic solutions for technical and vocational training. The company offers a diverse range of innovative systems, including multi-robot and continuous fiber 3D printing, collaborative robots for assembly lines, and educational equipment used by over 2,000 customers worldwide. Through its divisions like ERM Robotique and ERM Fabtest, it provides comprehensive services from multidisciplinary design and R&D to the integration of advanced mechatronic solutions for the aerospace, medical, and energy sectors.
CMS SpA is an Italian manufacturer based in Zogno that specializes in advanced CNC machines and large-format additive manufacturing solutions. The company offers cutting-edge hybrid systems that combine 3D printing and milling capabilities, as well as dedicated printing robots for industrial applications. As a leading system builder, CMS SpA provides innovative technology designed to optimize production processes for high-performance materials in sectors like aerospace, automotive, and marine.
C.M.S. SpA, founded in 1969, is a global leader in the manufacturing of multi-axis CNC machining centers, thermoforming machines, and waterjet cutting systems. The company specializes in advanced solutions for industries such as aerospace, automotive, and plastics, offering a wide range of highly flexible machinery and "turn-key" implementations. With a commitment to innovation and professional support, CMS provides state-of-the-art technology designed to enhance productivity and accuracy for plastic distributors and fabricators worldwide.
Procada is a Swedish engineering firm specializing in Directed Energy Deposition (DED) and advanced process control solutions for high-requirement applications in aerospace and defense. Based in Trollhättan, the company leverages over a decade of research to provide cutting-edge metal-wire AM technology, including closed-loop monitoring and customized system design. By collaborating with partners like University West and the ESA Business Incubation Centre, Procada delivers robust, sustainable manufacturing solutions that optimize material usage and enhance component performance.
Based in Bologna, Italy, D-MOD is a specialized design bureau and consultancy that provides unique, optimized design-for-additive manufacturing (DfAM) solutions for complex metal components. Utilizing cutting-edge Wire and Arc Additive Manufacturing (WAAM) technology, they offer a complete ecosystem of services including generative design, topology optimization, and structural validation to help companies leverage the full potential of metal 3D printing. Their expertise spans diverse industries such as aerospace, oil and gas, and construction, delivering high-performance, lightweight structures that maximize mechanical strength while minimizing material use.
Morroni is a Munich-based computational design studio specializing in the intersection of architecture, digital fabrication, and additive manufacturing through advanced parametric design and automation. The studio develops custom design workflows and toolpath strategies, providing innovative solutions for complex challenges in the automotive, medical, and industrial sectors. By leveraging sustainable materials and large-scale 3D printing, Morroni closes the digital chain from design to production, offering expert consulting and workshops to help teams scale and innovate.
PROTOTYPE 3D is a full-service industrial design and advanced manufacturing firm based in Squamish, British Columbia, specializing in robotic large-format additive manufacturing for sectors ranging from architecture to marine. Their circularity-driven model transforms local plastic waste into high-end products like the sculptural Juniper side table, reducing carbon footprints by printing near the end consumer. By blending cutting-edge digital fabrication with artisan techniques, they create "New Heritage" furniture and custom applications that prioritize sustainable, city-scale manufacturing.
Proditecture is an India-based design bureau that integrates circular material systems with advanced robotic and digital fabrication to create sustainable and intelligent architectural solutions. The studio utilizes parametric design, AI-driven workflows, and material innovation to develop low-carbon printable materials, including recycled polymers and hybrid composites, for large-scale robotic construction. By combining custom-built robotic platforms with real-time feedback systems, Proditecture delivers a seamless design-to-manufacture process that merges industrial automation with artisanal quality.
Based in Barre, Vermont, Massive Dimension is a leading provider of large-format robotic 3D printing solutions, specializing in high-performance pellet extruders and turn-key integrated printing cells. A subsidiary of Triex, the company empowers industries like aerospace and construction to optimize production with sustainable, multi-axis additive manufacturing technology that reduces material waste. By partnering with global robotics leaders and software providers like AiBuild, Massive Dimension delivers customizable, software-agnostic systems designed to handle complex engineering materials and large-scale applications.
Based in Hoorn, Netherlands, XTRUTION BV specializes in designing and manufacturing custom single and twin-screw extruders and peripheral equipment for the global plastics industry. With over 30 years of expertise, the company provides innovative solutions for plastic welding and large-scale 3D printing applications, supporting the entire process from system integration to downstream equipment. Their comprehensive services also include wear measurement for screws and cylinders, ensuring high-quality maintenance and optimized performance for existing extrusion machinery.
Periplast is a Portuguese company with over 40 years of expertise in polymer extrusion, specializing in the design and manufacture of high-performance extrusion systems and turnkey solutions. Its innovative Extrubot platform offers an all-in-one robotic pellet extrusion system that processes recycled polymers and composite materials at temperatures up to 400°C for sustainable, large-scale 3D printing. By integrating advanced software and lightweight hardware, Periplast provides cost-effective and environmentally responsible manufacturing solutions for industries worldwide.
Founded in 2015, XtreeE is a French construction tech pioneer specializing in large-scale robotic 3D concrete printing solutions, including advanced extrusion systems and end-to-end software. The company operates a global network of connected printing units across Europe, the UAE, the US, and Asia, collaborating with industry leaders like Vinci Construction and Holcim to decarbonize the AEC sector. Its comprehensive offerings range from "printing-as-a-service" and certified product catalogs to specialized consulting and design-for-manufacturing services for complex architectural and infrastructural projects.
Chime Performance Polymers is a leading Indian distributor and manufacturer with over 25 years of expertise in engineering polymers, specialty lubricants, and advanced adhesive solutions. Through its Bhavi-3D brand, the company specializes in formulating high-performance, warpage-free FGF technology filaments and reinforced raw materials like carbon fiber-filled ABS and glass-filled PETG. Serving over 700 clients in the automotive and aerospace sectors, Chime provides customized, high-precision materials tailored for both industrial and large-format 3D printing applications.
Founded in 2023 by materials engineer Nick Sonnentag, Sunnyday Technologies is a Wisconsin-based company that provides a closed-loop development system for 3D concrete printing through its integrated platforms: CEMFORGE for AI-driven mix formulation, M3-CRETE for open-source hardware, and Open3DCP for standardized data sharing. The company specializes in optimizing cementitious materials for site-specific resources, offering advanced software, consulting services, and affordable, modular printing solutions designed for field deployment. By bridging the gap between mix design, hardware performance, and physical testing, Sunnyday helps researchers and builders replace guesswork with data-driven, sustainable construction workflows.
AKRO-PLASTIC GmbH, a member of the Feddersen Group, is a global leader in the development and production of innovative plastic compounds with over 35 years of industry expertise. Headquartered in Niederzissen, Germany, with production sites in China and Brazil, the company specializes in high-performance thermoplastics and technical compounds for diverse sectors like automotive and e-mobility. Their commitment to sustainability is showcased through a specialized portfolio of bio-based, recycled, and mass-balanced materials tailored for advanced manufacturing and FGF 3D printing applications.
Founded in 2012 in the Netherlands, FormFutura is a leading global supplier of high-performance additive manufacturing materials, including an extensive range of innovative filaments, resins, and adhesives. The company is renowned for its commitment to sustainability, offering eco-friendly recycled products and circular packaging solutions like the EasyFill and ReForm series. Their diverse portfolio caters to both industrial and desktop 3D printing, featuring specialized materials such as flame-retardant, medical-grade, and UV-stabilized options for demanding engineering applications.
Helio Additive provides Dragon, a physics-based simulation and optimization engine designed to ensure first-time-right results in extrusion 3D printing by predicting thermal behavior at the voxel level. Their technology integrates directly with slicers like Bambu Studio and OrcaSlicer to automatically adjust print settings, significantly reducing waste while improving layer bonding and print speed. Beyond desktop applications, the company offers a cloud-based dashboard for large-format additive manufacturing (LFAM) to help industrial operators and OEMs achieve professional-grade strength and consistency.
3D Open Design LTD. is a Sofia-based technology firm founded in 2024 that specializes in AI-driven 3D printing software development and custom on-demand manufacturing services. The company provides a comprehensive platform offering AI-based 3D model generation, automated quoting tools, and multimaterial testing for projects ranging from small-scale prototypes to large-scale industrial designs. By bridging the gap between designers and manufacturers through its integrated marketplace, the firm empowers businesses to transform complex concepts into production-ready reality with precision and efficiency.
SAMYLABS is the first Spanish company to design, manufacture, and market industrial metal 3D printers using advanced Laser Powder Bed Fusion (LPBF) technology. Based in the Basque Country, the company specializes in providing accessible, high-quality additive manufacturing solutions like the compact ALBA 300+ and ALBA 500 models, which are suitable for both industrial and office environments. Their proprietary SamyLabs Studio lamination software ensures full control over the printing process, enabling the creation of high-precision parts for sectors including aerospace, medical, and automotive.
Aibuild is a London-based leader in AI-powered additive manufacturing software, specializing in automating complex engineering lifecycles for large-format 3D printing and hybrid CNC machining. Co-founded in 2015 by former Zaha Hadid architects, the company offers Aibuild OS and Aibuild CAM, hardware-agnostic platforms that utilize agentic AI to optimize toolpaths and reduce production failures for global industry leaders like Boeing and Ford. With recent expansion into Silicon Valley and strategic backing from partners like Nikon, Aibuild enables scalable, autonomous manufacturing across diverse sectors including aerospace, automotive, and construction.
Layer Performance GmbH is a German software company based in Aachen that specializes in advanced slicing and path planning for non-planar 3D printing. Its universal, browser-based platform supports a wide range of systems, from standard desktop FDM printers to industrial six-axis robotic arms, enabling the production of parts with superior surface quality and isotropic mechanical strength. By leveraging all available machine axes to optimize toolpaths, the software significantly reduces material waste and production time while eliminating the need for extensive post-processing.
CNC Robotics is a leading UK-based system integrator specializing in advanced robotic solutions for additive and subtractive manufacturing, particularly in sectors like aerospace, automotive, and the creative industries. Founded in 2010 and headquartered in Liverpool, the company is a KUKA Platinum System Integration Partner and a pioneer in utilizing industrial robots as flexible, cost-effective alternatives to traditional CNC machine tools. Their expertise includes large-format 3D printing and high-precision machining, supported by strategic partnerships with industry leaders like Autodesk, Caracol, and Meltio to drive innovation in automated production.
Technology Support BV, led by expert Jeroen Anslijn, is a Dutch system integrator specializing in high-end robotics, PLC programming, and motion control techniques. The company excels in tackling complex, non-standard challenges, including the implementation of large-scale robotic 3D printers for concrete in collaboration with ABB. Based in Dirkshorn, they offer global support and virtual commissioning services to ensure seamless integration and optimized performance for industrial automation projects.
AIVOX is an Italian innovation consulting factory and system integrator that develops bespoke technologies at the intersection of design, software, and manufacturing. Based in Milan, the company specializes in large-scale robotic 3D printing, 6-axis CNC machining, and the development of custom automation software and digital twins for advanced manufacturing. Its expertise in parametric design and multi-material additive manufacturing enables the industrialization of complex production systems for sectors ranging from aerospace and medical training to luxury fashion and art.
PrintCity is a leading 3D additive and digital manufacturing hub at Manchester Metropolitan University that bridges the engineering talent gap through specialized education and industry collaboration. Equipped with over 60 professional 3D printers and a dedicated CAD facility, the center supports businesses of all sizes with rapid prototyping, product development, and feasibility studies across materials ranging from metals to sustainable polymers. By integrating research in advanced metamaterials and sustainability, PrintCity serves as a national reference for industrial technology adoption and has been recognized as the Academic/Research Team of the Year.
INDEXLAB is a cross-disciplinary research laboratory at Politecnico di Milano that blends art, engineering, and architecture to develop innovative construction systems and robotic fabrication processes. Based at the Lecco Campus, the lab specializes in computational design and digital manufacturing, utilizing cutting-edge technologies like robotic 3D printing and reconfigurable mold systems. By experimenting with diverse materials such as polymers, cement, and composites, INDEXLAB collaborates with industry leaders to materialize complex architectural forms and sustainable building solutions.
ZAL, the Center of Applied Aeronautical Research in Hamburg, is a leading global innovation platform that bridges the gap between academia and the aviation industry to industrialize next-generation technologies. Its state-of-the-art TechCenter features specialized laboratories for hydrogen fuel cells, cabin innovation, and a large-scale robotic 3D printing system capable of manufacturing complex aircraft components with multiple robots simultaneously. By hosting partners like Airbus, Lufthansa Technik, and DLR, ZAL fosters a collaborative ecosystem focused on developing sustainable, climate-compatible aviation solutions through advanced digitalization and automated production.
REDU, a leading research institution in Rovaniemi, Finland, bridges the gap between R&D and industry by offering companies the opportunity to participate in ongoing large-format additive manufacturing (LFAM) projects. Through these collaborations, businesses can create and validate innovative workflows, test prototypes, and transition to sustainable, efficient manufacturing methods. As part of Lapland Education Centre REDU, the institution provides the facilities and expertise necessary to pilot cutting-edge robotic 3D printing solutions for real-world industrial applications.
UNSW Sydney is a premier research university that excels in advanced manufacturing and robotics through specialized facilities like the Collab and the Sydney Manufacturing Hub. It offers cutting-edge 3D printing capabilities, including a sophisticated GE metal 3D printing machine and large-format FDM systems, to support both undergraduate coursework and high-impact research in fields such as aerospace and medicine. By integrating AI and digital fabrication, UNSW partners with industry leaders to drive innovation in material science and sustainable manufacturing solutions.
TSI AdditiveLab is a specialized research and development unit within Latvia’s Transport and Telecommunication Institute, serving as the only facility of its scale in the Baltic states for large-scale metal wire additive manufacturing. The laboratory focuses on Wire Additive Manufacturing (WAM) and Wire Laser Additive Manufacturing (WLAM), providing end-to-end solutions from path planning and custom software development to the production of industrial-grade prototypes and components. By bridging the gap between academic research and industrial application, they offer expert services in robotic welding, industrial automation, and process control across sectors like aerospace, transport, and general manufacturing.
The Bulgarian Additive Manufacturing Association (BAMAS) serves as the primary national platform for the exchange of 3D printing expertise, resources, and technology in Bulgaria. Under the leadership of Chairman Kuzo Donchev, the association unites a network of companies, research institutions, and industry experts to foster innovation and structured collaboration across the country. BAMAS is an active member of the pan-European Addliance network, working to align Bulgarian additive manufacturing efforts with global standards and sustainable industrial practices.
The Laser Zentrum Hannover e.V. (LZH) is a premier independent non-profit research institute specializing in innovative photonics and laser technology through interdisciplinary research and development. Its extensive robotic 3D printing offerings include repair welding, wire-based laser additive manufacturing of large-scale parts, and AI-driven process monitoring for superior quality control. Serving diverse industries like aerospace, automotive, and medical technology, the LZH bridges the gap between scientific advancement and industrial application with its state-of-the-art laboratories and a global network of partners.
INESC TEC is a prominent Portuguese research institution specializing in advanced robotic additive manufacturing, digital twins, and intelligent production systems for large-format 3D printing. With over 30 years of experience, the institute operates across multiple sites to bridge the gap between academia and industry through cutting-edge R&D in sectors like aerospace, agrifood, and deep-sea exploration. Its multidisciplinary expertise enables the development of autonomous robotic ecosystems and AI-powered automation solutions that drive digital transformation and sustainability in global manufacturing.
The University of Exeter is a leading UK research institution home to the Centre for Additive Layer Manufacturing (CALM), specializing in high-performance polymers like PEEK and PAEK. Its cutting-edge facilities feature robotic 3D printing systems for large-format, high-temperature applications and the Cooperative Robotics and Autonomous Networks (CRANE) lab for advanced autonomous systems. Through strategic industrial partnerships, the university drives innovation in sustainable manufacturing, 4D printing, and soft robotics for the aerospace, automotive, and healthcare sectors.
The Manufacturing Technology Centre (MTC) in Coventry is a premier UK research and technology organization that bridges the gap between academia and industry by developing innovative manufacturing processes across sectors like aerospace, defense, and energy. As a key member of the High Value Manufacturing Catapult, it houses the National Centre for Additive Manufacturing and provides state-of-the-art facilities for intelligent automation, digital manufacturing, and advanced tooling. With nearly 1,000 employees and over 100 industrial members, the MTC empowers businesses of all sizes to enhance product performance and accelerate the commercialization of cutting-edge technologies.
The University of Central Lancashire (UCLan) is a leading UK research institution featuring a state-of-the-art £35 million Engineering Innovation Centre in Preston that serves as a hub for additive manufacturing and robotics. Its Additive Manufacturing Lab provides comprehensive prototyping and consulting services, offering access to high-resolution photopolymer and large-format thermoplastic 3D printers. Through its "Made Smarter" partnership, the university collaborates closely with industry leaders to drive digital transformation and sustainable innovation across the aerospace, automotive, and medical sectors.
The University of Manchester is a premier research institution in the United Kingdom, advancing the field of additive manufacturing through its specialized Additive@Manchester Lab and Digital Manufacturing Lab. Its cutting-edge research spans robot-assisted 3D printing with curved layers, soft robotics for the fashion industry, and the development of low-cost robotic prosthetics and bioprinting technologies for regenerative medicine. By utilizing advanced facilities equipped with UR robotic arms and multi-axis 3D printers, the university bridges the gap between computational design and physical production to drive innovation in aerospace, healthcare, and sustainable manufacturing.
The University of Westminster's Fabrication Laboratory and Creative and Advanced Technologies Lab (CAT LAB) are premier hubs for digital fabrication, featuring state-of-the-art KUKA industrial robots and diverse 3D printing capabilities. These facilities support interdisciplinary research and architectural innovation by integrating large-scale additive manufacturing with emerging technologies like VR, AR, and generative AI. Through strategic investments and industry collaboration, the university empowers students and researchers to explore sustainable design and advanced construction methodologies, positioning it at the forefront of applied creative technology in the UK.
SU-IMC is a premier Turkish research institution specializing in advanced manufacturing and multifunctional composite materials through its state-of-the-art Composite Technologies Center of Excellence. The center offers cutting-edge robotic solutions, including a large-format hybrid manufacturing cell capable of processing metals, thermoplastics, and metal matrix composites with integrated computer vision and machine learning. By bridging the gap between academic research and industrial application, SU-IMC provides specialized prototyping, mechanical testing, and professional training for high-performance sectors like aerospace, automotive, and defense.
The Robot Lab at the Amsterdam University of Applied Sciences (HvA) is a leading research hub that explores the intersection of digital design and robotic production to address urgent societal and sustainability challenges. Utilizing advanced industrial robotic arms and computational design, the lab specializes in transforming circular materials like recycled plastics and waste wood into innovative prototypes and functional products. By integrating education, research, and industry partnerships, HvA empowers a multidisciplinary team to accelerate the circular transition and develop flexible manufacturing solutions for a more sustainable future.
Fontys University of Applied Sciences, located in the Eindhoven Brainport region, is a leading Dutch institution providing practice-based research and education in additive manufacturing. Through its specialized Natural Science and ICT wings, the university offers hands-on programs in polymer development, metal 3D printing, and Design for Additive Manufacturing (DfAM) using industrial-grade equipment. By collaborating with high-tech industry leaders like ASML and Philips, Fontys bridges the gap between academic innovation and professional application to develop sustainable manufacturing solutions.
The Royal Netherlands Aerospace Centre (NLR) is a leading independent research institution with over 100 years of expertise in driving sustainable, safe, and efficient aerospace innovation. Based in Amsterdam and Marknesse, the center offers cutting-edge capabilities in multi-metal additive manufacturing and high-performance composite structures, bridging the gap between fundamental science and practical industrial applications. NLR supports the entire development chain—from initial concepts to prototype production and testing—utilizing advanced facilities like wind tunnels and specialized laboratories to strengthen the global aerospace sector.
NHL Stenden University of Applied Sciences' Centre of Expertise for Smart Sustainable Manufacturing is a Dutch research institution specializing in additive manufacturing, robotics, and circular production systems. Using a Design-Based Education approach, the center collaborates with industry partners on projects like large-scale 3D printing, robot-assisted welding, and the development of sustainable polymeric materials. Their work bridges the gap between applied research and industrial application, focusing on making manufacturing processes more efficient, flexible, and environmentally responsible.
The University of Twente is a leading Dutch research university at the forefront of additive manufacturing and robotics, featuring specialized facilities like the Soft Robotics Lab and a dedicated Rapid Prototyping Lab. The institution pioneers diverse applications ranging from 3D-printed biopsy robots and prosthetic liners to sustainable circular economy initiatives funded by major research grants. By integrating advanced materials with intelligent systems and KUKA robotic platforms, the university drives innovation in healthcare, industrial maintenance, and autonomous systems through global collaboration.
TU Delft is a globally recognized research university in the Netherlands that integrates science, engineering, and design to pioneer advanced manufacturing and digital society solutions. Its cutting-edge robotic 3D printing research includes the development of multi-axis, support-free fabrication techniques and programmable "action-at-a-distance" metamaterials for soft robotics. Through specialized facilities like the Center of Design for Advanced Manufacturing and the SAM XL innovation hub, the university bridges the gap between fundamental research and industrial applications in sectors such as aerospace and healthcare.
EPFL (École Polytechnique Fédérale de Lausanne) is a world-renowned research university in Switzerland at the forefront of Aerial Additive Manufacturing (Aerial AM). In collaboration with partners like Empa and Imperial College London, EPFL develops autonomous drones and swarm robotics capable of layer-by-layer material deposition for building and repair in challenging, inaccessible environments. Their work includes pioneering a five-level autonomy framework and utilizing the DroneHub testbed to bridge the gap between laboratory research and real-world industrial applications.
The IWK Institute for Materials Technology and Plastics Processing is Switzerland’s leading research institution for component design and production, specializing in material development, process optimization, and software for robotic 3D printing. Part of the Eastern Switzerland University of Applied Sciences (OST), the institute bridges science and practice to deliver innovative solutions across the entire 3D printing process chain, including FDM, SLS, and hybrid technologies. With a state-of-the-art laboratory for injection molding and composite processing, IWK supports industry partners through application-oriented R&D, feasibility studies, and specialized training programs.
GKN Aerospace is a global leader in engine systems and aerostructures, specializing in advanced laser-wire Directed Energy Deposition (DED) and Selective Laser Melting (SLM) to produce lightweight, high-performance components. Their Center of Excellence in Trollhättan, Sweden, drives innovation in sustainable manufacturing, utilizing 3D printing to reduce raw material waste by up to 80% and significantly shorten production lead times. With a century of aviation heritage and a commitment to net-zero emissions, the company collaborates with industry and academia to pioneer electrification and hydrogen technologies for the future of flight.
Chalmers University of Technology is a leading Swedish research institution that hosts the Robotic Fabrication Laboratory, a specialized hub for architectural experimentation and advanced manufacturing. Equipped with industrial KUKA robot arms, the lab supports cutting-edge research in 3D printing, CNC milling, and material innovation through its AM@Chalmers and WISE Additive infrastructures. By bridging academic research with industrial collaboration, Chalmers facilitates the development of sustainable, high-performance components for sectors such as aerospace, biomedical, and energy.
KTH Royal Institute of Technology in Stockholm is Sweden's largest technical university and a global leader in pioneering 3D and 4D printing research for robotics, medical implants, and sustainable infrastructure. The institution utilizes advanced equipment, including ABB robotic arms for concrete printing and high-precision electron beam powder bed fusion systems, to bridge the gap between digital design and physical manufacturing. By integrating smart materials and micro-scale 3D printing, KTH develops innovative solutions like customized MEMS sensors and bioelectronic devices that drive advancements in aerospace, healthcare, and industrial automation.
RISE Research Institutes of Sweden is a leading government research center that accelerates industrial innovation through its state-of-the-art Application Center for Additive Manufacturing. Its specialized robotic 3D printing services, including IRBAM and large-scale FDM, enable the production of complex objects up to several meters in size while prioritizing circularity and recycled thermoplastic composites. By providing an independent "test before you invest" environment, RISE supports partners like Volvo and Siemens in optimizing everything from material development and product design to large-scale industrial production.
CeNTI - Centre for Nanotechnology and Smart Materials is a premier Portuguese research institute dedicated to developing advanced materials and functional coatings for robotic 3D printing and additive manufacturing. By exploring innovative polymer and composite formulations with embedded functionalities, the center enables high-performance, sustainable applications across the construction, mobility, and design sectors. Through its cutting-edge research, CeNTI bridges the gap between nanotechnology and industrial production to provide transformative solutions for the global market.
The Centre for Rapid and Sustainable Product Development (CDRSP), part of the Polytechnic of Leiria in Portugal, is a premier research institution specializing in advanced additive manufacturing and sustainable product development. Its extensive research portfolio includes pioneering work in multi-axis robotic extrusion for polymers, composites, and concrete, as well as the development of specialized systems like BioRobotBeads and PRINTbig for large-scale composite parts. By integrating design, simulation, and materials science, CDRSP collaborates on numerous national and international projects to drive digital transformation and value-added manufacturing solutions for global industry.
SeaPower is a specialized research institution based in Portugal that develops large-scale robotic 3D printing technologies tailored for marine and energy applications. The company utilizes advanced composite and polymer extrusion processes to manufacture durable, lightweight, and corrosion-resistant components designed to withstand harsh maritime environments. By integrating these innovative additive manufacturing solutions, SeaPower promotes greater efficiency and sustainability within the global maritime industry.
The ACTech Hub at the University of Minho's School of Architecture, Art and Design is a pioneer in integrating digital technologies like BIM and generative design with robotic construction and additive manufacturing. Their research focuses on sustainable building systems, including 3D-printed concrete reinforced with natural fibers and modular solutions designed for circularity. By bridging academic innovation with industrial application, the hub develops automated architectural components that drive the future of resilient and eco-friendly construction.
Tekniker is a premier Spanish research institution specializing in advanced manufacturing, robotics, and artificial intelligence to drive industrial digitalization. The center offers cutting-edge research and development services, including part manufacturing and the design of robotic cells for complex industrial applications. Through projects like ADAPTA and DIGIFORM, Tekniker integrates AI and sensor technology to optimize production, improve human-robot collaboration, and achieve zero-defect manufacturing.
Aitiip Technology Centre is a leading Spanish R&D hub specializing in advanced manufacturing, robotics, and sustainable materials with over 25 years of experience in the plastics and composites value chain. The center designs custom robotic additive manufacturing systems and high-throughput extruders, offering specialized services in prototyping, toolpath generation, and structural optimization for the aerospace and automotive sectors. A pioneer in the circular bioeconomy, Aitiip leads major European projects to develop innovative bio-composites and large-scale hybrid 3D printing technologies that integrate metallic and polymer components.
AIMPLAS is a Spanish technology center with over 35 years of experience specializing in research and development across the entire plastics value chain, from polymer synthesis to waste recovery. The institute operates more than 50 state-of-the-art pilot plants to develop advanced materials for robotic 3D printing, including high-performance composites, recycled polymers, and bioplastics. By integrating Industry 4.0 technologies and circular economy principles, AIMPLAS provides comprehensive technical assistance, accredited testing, and specialized training to help global industries achieve sustainable innovation.
The Technical University of Košice (TUKE) is a leading Slovak research institution that advances industrial automation through its Prototyping and Innovation Centre, specializing in robotics, additive technologies, and smart manufacturing. Its research focuses on integrating AI and collaborative robotic systems to enhance productivity and quality for the aerospace, automotive, and energy sectors. Through its various faculties and experimental labs, TUKE bridges the gap between academic research and industrial application, providing custom manufacturing and expert consultancy in polymer materials and digital transformation.
TECNALIA Research & Innovation is Spain's largest applied research and technological development center and a leading European benchmark specializing in smart manufacturing, digital transformation, and sustainable mobility. Through its specialized 3D Printing in Construction Laboratory and the new Proactive Factory Lab, the organization develops advanced robotic systems and cable-driven robots like Cogiro to automate large-scale construction and industrial processes. With a team of over 1,500 professionals and an extensive network of multi-technology laboratories, TECNALIA bridges the gap between research and market implementation to enhance industrial competitiveness and promote sustainable growth.
DONE Lab, based at the University of Minho in Portugal, is a premier research laboratory specializing in robotic additive manufacturing, digital design, and multi-material pellet extrusion. The facility focuses on advancing sustainable product design and material science by integrating cutting-edge AI-assisted manufacturing techniques into their robotic systems. By bridging the gap between academic research and industrial application, DONE Lab develops innovative solutions for complex manufacturing challenges across various sectors.
AIMEN Innovation and Technology Centre is a Spanish benchmark in R&D&I and advanced manufacturing, specializing in laser technologies, robotics, and materials science. With over 50 years of expertise and a team of 330 professionals, the centre provides high-end engineering services and pilot production for sectors including aerospace, mobility, and energy. Its state-of-the-art facilities in O Porriño feature a unique Laser Applications Centre and specialized laboratories for additive manufacturing, structural integrity, and digital twins.
LORTEK is a private Spanish research center and member of the Basque Research and Technology Alliance specializing in the digitalization of manufacturing through advanced joining, additive manufacturing, and inspection technologies. The institute provides comprehensive R&D services, technical consultancy, and specialized training, utilizing a state-of-the-art pilot plant equipped for metal 3D printing processes like WAAM, PBF-LB, and DED. By integrating artificial intelligence and process monitoring, LORTEK delivers innovative, sustainable solutions to global industrial leaders in the aerospace, energy, and automotive sectors.
The IMDEA Materials Institute is a leading Spanish research center specializing in materials science and engineering through its unique robotics laboratory and advanced additive manufacturing facilities. Its expertise spans the development of complex 3D-printed alloys, such as nickel-based superalloys and shape-memory nitinol, using cutting-edge techniques like laser powder bed fusion and in-situ synchrotron imaging. By bridging the gap between fundamental research and industrial application, the institute collaborates with global partners to deliver innovative, sustainable solutions for the aerospace, energy, and biomedical sectors.
The Institute for Advanced Architecture of Catalonia (IAAC) is a premier Barcelona-based research and education hub dedicated to prototyping the future of sustainable architecture through robotic 3D printing. Utilizing pioneering technologies like the Crane WASP and mobile swarm robotics, IAAC specializes in large-scale construction using 100% natural materials, including local earth and organic waste, to create carbon-neutral, climate-adapted housing. Beyond its academic programs, the institute has achieved global milestones such as printing the world's first 3D-printed pedestrian bridge and developing on-site fabrication methods that integrate drones and cable robots for scalable, infrastructure-independent building.
The West Pomeranian University of Technology in Szczecin (ZUT) is a prominent public technical university in Poland, established in 2009 through the merger of the Szczecin University of Technology and the Agricultural University of Szczecin. Its 11 faculties offer a broad range of interdisciplinary programs in engineering, technology, and agriculture, supported by state-of-the-art research facilities like the Teaching and Research Nanotechnology Centre. As a member of the EUNICoast European University Alliance, ZUT is deeply committed to international collaboration, innovation, and aligning its academic offerings with the needs of the modern global labor market.
Established in 1965, the Łukasiewicz Research Network – Industrial Research Institute for Automation and Measurements PIAP is a premier Polish scientific institute specializing in advanced robotics, automation, and industrial 3D printing. The institute is a global leader in the production of mobile robots for counter-terrorism, C-IED, and reconnaissance, while also providing comprehensive R&D services for the defense, space, and manufacturing sectors. With over 50 years of expertise, PIAP supports the digital transformation of industry through innovative solutions in large-scale concrete 3D printing, metal additive manufacturing (WAAM), and automated production lines.
The Norwegian University of Science and Technology (NTNU) is a leading research institution in Trondheim that develops advanced robot-assisted material deposition techniques, including Wire Arc Additive Manufacturing (WAAM) for large-scale metal components. Its specialized laboratories, such as the Metal Additive Manufacturing Laboratory and the Material Extrusion Lab, support experimental research on process optimization, metallurgy, and high-performance polymers. Through its participation in the MANULAB national infrastructure, NTNU bridges the gap between academia and industry to drive innovation in sustainable manufacturing for sectors like aerospace and automotive.
The University of Malta is a leading research institution advancing sustainable construction through innovative projects like 3D concrete printing using recycled aggregates and low-impact materials. Its Faculty of Engineering and Department of Industrial and Manufacturing Engineering drive cutting-edge developments in large-scale additive manufacturing, including the MALTI3D project for cost-effective pellet-based printing and SMACORT for energy-efficient building components. By collaborating with international partners and the Malta Council for Science and Technology, the university bridges the gap between academic research and industrial application in sectors ranging from construction to medical technology.
Vilnius Gediminas Technical University (VILNIUS TECH) is a leading Lithuanian research institution specializing in engineering and innovative technologies, including advanced 3D concrete printing and digital fabrication. Its Department of Mechatronics, Robotics and Digital Manufacturing operates specialized laboratories for industrial robotics and additive manufacturing, focusing on complex geometries and sustainable construction techniques. By fostering strong industry-business cooperation, VILNIUS TECH prepares highly qualified specialists to implement cutting-edge solutions in fields ranging from aerospace and civil engineering to cybersecurity and smart building technologies.
Politecnico di Milano is a premier Italian technical university that leads innovative research in robotics and additive manufacturing through specialized facilities like +Lab and the Leonardo Robotics Labs. Its pioneering Atropos system utilizes a six-axis robotic arm to 3D print continuous fiber composites, enabling the creation of complex, high-performance structures without the need for molds. The institution further advances the field by integrating artificial intelligence and advanced sensing to develop autonomous, sustainable manufacturing solutions for sectors ranging from aerospace to architecture.
The Digital Fabrication Lab at the University of Chieti-Pescara (Ud’A) is a cutting-edge research facility specializing in advanced digital fabrication, computational design, and performance analysis. Equipped with an integrated system of FDM and LDM 3D printers, CNC machinery, and high-precision 3D scanners, the lab bridges the gap between digital modeling and physical production for research and innovative teaching. Beyond prototyping, the facility focuses on the development of new building materials and AI-supported structural optimization to drive sustainable solutions in architecture and engineering.
The University of Bologna is a prestigious research institution in Italy that excels in advanced manufacturing and innovation through its specialized testing and prototyping of WAAM parts. As the oldest university in the Western world, it leverages its historic expertise to drive modern developments in architecture, design, and construction applications. Beyond its robotic 3D printing offerings, the university provides a comprehensive range of over 260 degree programs across five campuses, fostering a diverse and inclusive academic community.
Irish Manufacturing Research (IMR) is a leading not-for-profit research and technology organization with labs in Dublin and Mullingar dedicated to demystifying and de-risking advanced manufacturing technologies. Through its four pillars—Digitisation, Robotics & Automation, Design for Manufacturing, and Sustainable Manufacturing—IMR provides Irish industries with access to cutting-edge facilities, pilot lines, and expertise in areas like 3D printing and AI. As a key partner for both SMEs and multinationals, IMR delivers practical, high-impact solutions and training to help companies improve productivity, achieve sustainability goals, and compete in the global economy.
The University of Limerick is a leading Irish research institution featuring the Metal Plasticity and Additive Manufacturing Group, which specializes in the characterization and fabrication of metal components using technologies like Direct Energy Deposition and Laser Powder Bed Fusion. Through its Centre for Robotics & Intelligent Systems, the university also develops advanced robotic solutions for marine and industrial applications, including smart ROV technologies and autonomous systems. By partnering with industrial leaders like Croom Medical, the university bridges the gap between academic research and commercial application, driving innovation in sectors such as aerospace, healthcare, and sustainable manufacturing.
The Budapest University of Technology and Economics (BME) is a premier Hungarian research institution that advances sustainable construction through its Laboratory of the Department of Construction Materials and Technologies. Utilizing a large-scale ABB IRB 6700 six-axis industrial robot, the university conducts pioneering research into 3D concrete printing, focusing on material properties and the structural integrity of complex, large-scale elements. By integrating advanced concrete extrusion with robotic precision, BME bridges the gap between academic innovation and the future of automated, eco-friendly infrastructure.
The University of Stuttgart is a premier German research institution leading innovations in additive manufacturing through specialized centers like the Institute for Computational Design and Construction (ICD) and the Institute of Polymer Technology (IKT). Its cutting-edge research spans heavy-duty robotic timber-bioplastic fabrication, sustainable material recycling for laser sintering, and pioneering 3D-printed micro-optics for endoscopic medical applications. By fostering interdisciplinary collaboration between engineering, physics, and biotechnology, the university develops advanced robotic systems and bio-inspired materials that address global challenges in construction, healthcare, and environmental sustainability.
The Technical University of Munich (TUM) is a premier European research institution specializing in engineering, technology, medicine, and applied sciences, consistently ranked among Germany's top Universities of Excellence. Its advanced Robotic Fabrication Labs feature cutting-edge Universal Robots (UR) and extrusion systems dedicated to pioneering architectural fabrication methods using clay and cementitious mortar. As a leading entrepreneurial university, TUM bridges the gap between academic research and industry, collaborating with global partners like BMW and Siemens to transform innovative technologies into sustainable solutions for society.
The Karlsruhe Institute of Technology (KIT) is a leading German research university recognized for its excellence in mechanical engineering and additive manufacturing. Through its Cluster of Excellence 3D Matter Made to Order, KIT develops pioneering technologies like multi-material ceramic 3D printing and robotic microwave print heads for fiber-reinforced thermoplastics. By bridging fundamental research with industrial applications, the institute creates innovative solutions for aerospace, medicine, and high-precision micro-optics.
The Institute of Construction Management at TU Dresden is one of Germany’s oldest and most prestigious institutions in the field, specializing in construction process engineering and concrete 3D printing (B3D). Its research focuses on digital production planning, resource efficiency, and BIM integration, utilizing both stationary and mobile printing systems to optimize B3D workflows. By bridging the gap between academia and industry through expert workshops and contract research, the institute supports partners in scaling innovative manufacturing technologies for practical application.
The Fraunhofer Institute for Production Technology (IPT) is a leading German research institution that develops and integrates advanced additive manufacturing processes like Laser Metal Deposition (LMD-w) and Wire Arc Additive Manufacturing (WAAM) into sustainable production chains. Specializing in large-scale metal components and complex geometries via LPBF, the institute bridges the gap between research and industrial application by optimizing the entire process from raw material to finished product. Through collaborations with industry partners and medical innovators like BellaSeno, Fraunhofer IPT leverages robotics and automation to enhance manufacturing efficiency, safety, and scalability across sectors such as aerospace and automotive.
The Fraunhofer Institute for Manufacturing Technology and Advanced Materials (IFAM) is a leading European research institution specializing in powder metallurgy, additive manufacturing, and functional materials for industries like aerospace, automotive, and energy. Its Dresden location operates the Innovation Center Additive Manufacturing (ICAM), featuring cutting-edge technologies such as Selective Electron Beam Melting, 3D screen printing, and Lithography-based Metal Manufacturing (LMM). By bridging the gap between fundamental research and industrial application, IFAM provides comprehensive services ranging from material development and component design to pilot production and quality assurance.
The Fraunhofer Institute for Manufacturing Engineering and Automation (IPA) is a leading German research institution specializing in robot-based hybrid manufacturing, large-scale additive manufacturing with granulates, and automated quality control. With over 50 years of experience, the institute develops cutting-edge solutions for industrial and service robotics, including AI-powered bin picking, humanoid robot benchmarking, and the Care-O-bot service series. As a co-founder of the Robotics Institute Germany, Fraunhofer IPA bridges the gap between interdisciplinary research and commercial application for sectors like automotive, healthcare, and aerospace.
The Fraunhofer Institute for Machine Tools and Forming Technology IWU is a leading German research institution specializing in advanced manufacturing and resource-efficient production. Its innovative 3D printing offerings include the ultra-fast Screw Extrusion Additive Manufacturing (SEAM) process for high-performance plastics and Laser Powder Bed Fusion for high-precision metal components. By integrating robotics and sensor technology, Fraunhofer IWU develops customized industrial solutions for sectors like aerospace and automotive, ranging from automated cable assembly to large-scale, fiber-reinforced structures.
The Fraunhofer Institute for Laser Technology (ILT) is a world-leading research and development institution in Aachen, Germany, specializing in innovative laser beam sources and industrial laser processes. With over 550 employees and 40 spin-offs, the institute advances additive manufacturing through Laser Material Deposition (LMD) and Laser Powder Bed Fusion (LPBF), utilizing flexible robotic systems for complex metal component fabrication. Serving industries like aerospace, automotive, and medical technology, Fraunhofer ILT bridges the gap between cutting-edge research and commercial application through system design, process qualification, and international collaborations.
Dresden University of Technology (TUD) is a leading research institution in Germany that pioneers large-scale construction automation through its innovative CONPrint3D® technology for on-site concrete 3D printing. The university operates the Additive Manufacturing Center Dresden (AMCD) in collaboration with Fraunhofer IWS, focusing on multi-process solutions for aerospace, energy, and medical sectors. Its comprehensive research spans across materials science, digital process chains, and advanced reinforcement strategies, bridging the gap between fundamental science and industrial application.
TUD Dresden University of Technology is a premier German research institution leading advancements in large-scale robotic 3D printing through projects like CONPrint3D for on-site concrete construction and 3D-FibRe-Print for ultra-lightweight composites. The university operates the Additive Manufacturing Center Dresden (AMCD) in collaboration with Fraunhofer IWS, focusing on multi-process solutions for aerospace, automotive, and medical engineering. By integrating AI and innovative robotic path planning, TU Dresden bridges the gap between fundamental research and industrial applications to revolutionize sustainable manufacturing and modern architecture.
Technische Universität Dresden (TU Dresden) is a premier German research university that pioneered the CONPrint3D technology, a revolutionary on-site robotic concrete 3D printing process. By adapting established construction machinery like truck-mounted concrete pumps into large-scale robotic manipulators, the university enables the automated, formwork-free creation of monolithic reinforced concrete structures directly on construction sites. Their interdisciplinary research integrates advanced materials science, computational design, and BIM data management to significantly reduce construction costs and carbon footprints while expanding architectural design possibilities.
Technische Universität Braunschweig is Germany's oldest technical university, renowned for its interdisciplinary research in future-oriented fields such as mobility, metrology, and sustainable construction. The university drives innovation through specialized centers like the Automotive Research Centre Niedersachsen (NFF) and collaborations with partners like Volkswagen to advance AI in product development and additive manufacturing. Its cutting-edge research in robotic 3D printing focuses on automating the construction of complex structures using sustainable materials like concrete, metal, and clay to revolutionize industrial efficiency.
The Université de Toulon is a prominent French research institution specializing in advanced multi-axis robotic additive manufacturing and marine robotics through its COSMER laboratory. Its cutting-edge research focuses on large-scale direct deposition processes, non-planar toolpaths, and the integration of smart sensing systems to optimize precision and sustainability in industrial applications. By collaborating with partners like Seatech and Ifremer, the university bridges the gap between academic innovation and maritime engineering to develop autonomous robotic systems for exploration and complex manufacturing.
Institut Pascal is a premier French interdisciplinary research unit under the supervision of Université Clermont Auvergne and CNRS, specializing in the "factory of the future" through advanced robotics and mechanics. The laboratory conducts cutting-edge research in robotic additive manufacturing, utilizing an ABB IRB 6660 industrial robot with AdaOne control to pioneer pellet-based extrusion (FGF) for large-scale polymer applications. As a member of the CNRS ROBOTEX network and FACTOLAB, the institute bridges the gap between academic research and industrial innovation in sectors like transport, health, and advanced manufacturing.
Founded in 1747, École Nationale des Ponts et Chaussées is a prestigious French institution at the forefront of digital construction and multi-axis robotic fabrication. The university develops advanced workflows for architectural additive manufacturing, specializing in non-planar toolpaths and sustainable material systems for next-generation building components. As a member of the Paris Institute of Technology, it bridges high-level engineering education with innovative research to drive the ecological transition in construction.
The University of Southern Denmark (SDU) is a leading European research institution specializing in 'Robotics in 3D Concrete Printing' through its innovative SDU CREATE group. By integrating computational design, structural optimization, and data-driven robotic control, SDU develops sustainable construction solutions like the 3DLightSlab to significantly reduce material waste and CO2 emissions. Their cutting-edge research bridges the gap between academia and industry, focusing on automated off-site prefabrication and advanced material experiments to revolutionize the future of architectural and civil engineering.
The Technical University of Denmark (DTU) is a premier research institution specializing in advanced additive manufacturing across polymers, metals, ceramics, and construction materials. Its state-of-the-art facilities, including the Open Additive Manufacturing initiative and the DTU Construct AM Lab, feature custom-built robotic systems for big-area 3D printing and innovative metal powder development. DTU bridges the gap between academia and industry by developing cutting-edge solutions for aerospace, healthcare, and sustainable construction, such as 3D-printed ceramic fuel cells and lunar regolith extrusion systems.
The Czech Institute of Informatics, Robotics and Cybernetics (CIIRC CTU) is a premier research institute at the Czech Technical University in Prague specializing in artificial intelligence, industrial robotics, and Industry 4.0. As a founding coordinator of the RICAIP European Center of Excellence, it operates advanced facilities like the Testbed for Industry 4.0 to drive innovation and technology transfer between academia and global industrial partners. Their expert team offers specialized consultations and prototyping services, particularly in the fields of robotic 3D printing and the development of intelligent distributed production systems.
The University of Cyprus features a cutting-edge Wire Arc Additive Manufacturing (WAAM) facility led by Dr. Nicolas Hadjipantelis, utilizing an ABB IRB 2600 robotic arm and Fronius CMT TPS 500i equipment. As a leading research institution, the university has further expanded its capabilities through the AM2C3 project, focusing on advanced materials and metal prosthetics for the aerospace and medical sectors. This state-of-the-art infrastructure supports both academic excellence and regional industrial innovation by providing high-value, fully-automated bimetallic 3D printing solutions.
Thomas More University of Applied Sciences in Belgium is a prominent research institution providing expert guidance on hardware and software for Large Format Additive Manufacturing (LFAM). Through its Mobilab & Care research group and the AMobile mobile LFAM setup, the university offers hands-on demonstrations and helps implement digital 3D printing workflows for practical applications like custom orthopedic tools. Their interdisciplinary approach bridges the gap between academic research and industry, supporting businesses with feasibility studies, material selection, and specialized training in advanced manufacturing technologies.
The University of Liege is a leading Belgian research institution specializing in advanced robotic additive manufacturing and aerospace engineering. Its innovative research focuses on large-scale 3D printing using sustainable materials like clay mixed with algae fibers, utilizing 6-axis robotic arms for complex architectural and structural applications. Through projects like ROBAUTO and AMSeR, the university collaborates with industry partners to advance soft robotics, composite manufacturing, and self-healing materials.
KU Leuven is a premier Belgian research university and a global leader in additive manufacturing, consistently ranked as one of the most innovative academic institutions in the world. Its specialized mechanical engineering department focuses on advancing Wire Arc Additive Manufacturing (WAAM) and laser-based metal 3D printing through process development, intelligent monitoring, and hybrid additive-subtractive manufacturing. By collaborating with industry partners, the university bridges the gap between fundamental research and commercial application to optimize material performance and develop sustainable manufacturing solutions for sectors like aerospace and construction.
Ghent University is a leading Belgian research institution specializing in advanced additive manufacturing technologies, including polymer extrusion, concrete 3D printing, and biomaterials. Through its Additive Manufacturing Platform, the university bridges the gap between academia and industry by offering design consultancy, material development, and collaborative R&D projects for complex engineering and medical applications. Its innovative work ranges from large-scale robotic 3D concrete printing to high-definition biofabrication and the development of multi-material electrical machines.
The DesignLab at Universidad Adolfo Ibáñez in Santiago, Chile, is a creative hub focused on research-oriented projects and academic collaboration in the fields of design and innovation. The lab features a FabLab equipped for advanced prototyping, supporting both undergraduate and postgraduate students in developing impactful solutions for objects, services, and experiences. By bridging the gap between education and industry, DesignLab UAI fosters a community of designers dedicated to shaping future possibilities through continuous learning and international research initiatives.
The Johannes Kepler University Linz (JKU) is a leading Austrian institution known for its modern campus and cutting-edge research across faculties like engineering, medicine, and social sciences. Its Creative Robotics Lab specializes in advanced robotic 3D printing, utilizing industrial arms to fabricate bio-inspired soft robots from biodegradable gels and polymers. By fostering strong ties with Upper Austria's robust industrial sector, the JKU bridges the gap between academic innovation and real-world application in the field of additive manufacturing.
The ADMiRE Research Center, affiliated with the Carinthia University of Applied Sciences in Austria, specializes in the integration of additive manufacturing, intelligent robotics, and embedded sensors. Their research focuses on sustainable material extrusion-based 3D printing using polymers and pellets to develop innovative solutions like smart prosthetics, soft robotic grippers, and multi-axis printing systems. By bridging the gap between academia and industry, ADMiRE advances the European Green Deal through cutting-edge developments in topology optimization, sensor integration, and specialized training for the next generation of engineers.
The University of Coimbra develops advanced robotic metal additive manufacturing systems, featuring a 6-axis Direct Energy Deposition (DED) setup created in collaboration with SINTEF. This technology enables the large-scale production of complex metal parts with integrated simulation and process optimization to ensure high-quality output. As a leading research institution in Portugal, the university focuses on advancing industrial capabilities through innovative robotic 3D printing solutions and strategic international partnerships.
The German Aerospace Center (DLR) Institute of Structures and Design develops high-performance, lightweight structures for the aerospace, automotive, and energy sectors using advanced materials and digital technologies. Their research focuses on climate-friendly manufacturing, including metal additive manufacturing processes like Laser Powder Bed Fusion (LPBF) to produce cost-effective, complex components like combustion chambers. Utilizing a unique Multifunctional Robot Cell, the institute advances automated production and robotics to enable the assembly and testing of large-scale, resource-efficient systems.
Deakin University is a world-leading research institution in Australia specializing in advanced manufacturing, intelligent systems, and materials science through its Geelong Future Economy Precinct and ManuFutures incubator. Its cutting-edge offerings include 4D printing, soft robotics, and high-performance haptics, supported by facilities like the Carbon Nexus and the Institute for Intelligent Systems Research and Innovation. By bridging the gap between research and commercialization, Deakin collaborates with industry leaders to develop innovative, sustainable solutions in sectors such as aerospace, defense, and health.
Centria University of Applied Sciences, located in Kokkola, Finland, hosts the Robo3D Lab, Northern Finland’s most versatile robotics laboratory specializing in industrial and collaborative robot (cobot) applications. The facility offers cutting-edge capabilities in large-scale additive manufacturing using thermoplastic pellet extrusion, alongside advanced 3D scanning, machine vision, and XR technologies for virtual planning and testing. Serving as a hub for research, development, and innovation, the lab collaborates with industrial partners to develop new processes and applications that drive the future of smart manufacturing and robotics.
CATEC (Advanced Center for Aerospace Technologies) is a leading Spanish research and innovation center dedicated to advancing manufacturing processes within the aerospace sector. The institute specializes in developing robotic metal additive manufacturing technologies, such as Wire Arc Additive Manufacturing (WAAM) and Laser Metal Deposition (LMD), with a strong focus on structural optimization and process automation. By integrating in-situ monitoring for high-performance components, CATEC bridges the gap between research and industrial application to drive international innovation.
ETH Zurich is a premier research university in Switzerland that leads the field of robotic 3D printing through innovative techniques like "impact printing," which enables fast, cement-free construction using earth-based materials. Their multidisciplinary research spans large-scale digital fabrication for architecture, such as the 3D-printed White Tower, to the development of multi-material jetting for functional soft robotics. By collaborating with industry partners and fostering spin-offs like Saeki, ETH Zurich bridges the gap between academic research and sustainable, automated manufacturing solutions.
Based in Orlando, Florida, MassiveMAKE is an advanced manufacturing and design firm that leverages large-scale 3D printing and computational design to create custom architectural elements and immersive environments. The company specializes in high-fidelity fabrication for prestigious clients in the theme park, hospitality, and entertainment sectors, with notable contributions to projects like Disney's Pandora – The World of Avatar. By integrating in-house additive manufacturing with sustainable, recyclable materials, MassiveMAKE delivers precise, cost-effective solutions that bridge the gap between complex design intent and physical reality.
TRIDIAM is a Finnish pioneer in large-scale metal additive manufacturing, utilizing advanced robotic Wire Arc Additive Manufacturing (WAAM) to solve complex industrial challenges. Based in Porvoo, the company provides end-to-end services from 3D modeling and optimization to final certified production, significantly reducing lead times and material waste compared to traditional manufacturing. By leveraging the state-of-the-art MX3D M1 system, TRIDIAM delivers high-performance, sustainable, and locally produced components for sectors including marine, energy, and aerospace across the Nordic market.
A3D Building is a Spanish pioneer in construction 3D printing, specializing in the development of modular gantry systems and proprietary transportable technology for both on-site and off-site projects. The company offers a comprehensive suite of auxiliary systems, including custom extruders and continuous feeding pumps, to optimize structural concrete printing. Since its founding in 2016, A3D has expanded its portfolio to include sustainable certified housing and innovative office buildings, positioning itself as a leader in rapid, technology-driven architectural solutions.
Based in Mumbai, Nouz3D is a forward-thinking manufacturing service provider that pioneers sustainable 3D printing through the integration of computational design and large-scale robotic fabrication. Founded by architect Mit Vasant Patel, the company specializes in creating bespoke interiors, artisanal finishes, and architectural innovations using circular materials like recycled polymers and natural clay. Their tech-driven approach focuses on support-free, low-waste production to deliver end-to-end solutions ranging from rapid prototyping to complex, large-format additive manufacturing.
Dark Matter Design is a digital manufacturing studio based in Eindhoven that specializes in bridging the gap between artistic expression and advanced technology. The studio offers comprehensive robotic 3D printing services, including project advice, custom design, and clay or ceramic printing for creative applications like art installations. By developing and adapting digital manufacturing machines for innovative materials and non-planar toolpaths, they help clients navigate the constraints of emerging technologies to achieve sustainable and unique results.
Aridditive is a Spanish deeptech startup and UPC spin-off that revolutionizes construction through its proprietary ISCEX technology, enabling 3D concrete printing with instant curing and complex geometries without formwork. The company offers a flexible Manufacturing as a Service (MaaS) model for architectural elements and urban furniture, supported by their TRACE platform for real-time quality tracking and carbon footprint certification. Through its Advanced Technology Innovation Center (ATIC), Aridditive collaborates with industry leaders to develop sustainable, automated building solutions that significantly reduce material waste, costs, and transport emissions.
Zeisberg Carbon GmbH is a German specialist in high-performance carbon composite components and large-scale 3D printing, operating Germany's largest industrial 3D printer for engineering thermoplastics with a build volume of up to 6,000 mm. The company provides end-to-end manufacturing services, including CAD design, FEM simulation, and CNC machining, to create complex parts for demanding sectors like aerospace, defense, and automotive. Their innovative approach combines lightweight materials with specialized resin systems to produce durable, high-quality solutions ranging from anti-ballistic panels to professional race car components.
Based in Bratislava, SORTEC EUROPE s.r.o. is a specialized design studio and high-capacity production facility focused on large-scale 3D printing and digital solutions. As the official distributor of SinuCraft solutions, they provide advanced hybrid workstations that integrate robotic 3D printing with precision CNC milling for the aerospace, automotive, and construction industries. With over 30 years of experience, the company also offers comprehensive services in digital signage, professional TV systems, and industrial equipment distribution.
Sydney Composites is a premier manufacturer specializing in high-end carbon fiber components and aerodynamic solutions for industries ranging from automotive racing to renewable energy and aerospace. Founded in 2016, the company offers a comprehensive suite of services including CAD design, CNC machining, 3D scanning, and advanced curing processes like infusion and pre-preg in their large-scale industrial ovens. Their expertise in reverse engineering and rapid prototyping allows them to deliver precision-engineered structural products and custom one-of-a-kind projects for world-class clients and research institutions.
Lincoln Electric Additive Solutions is a world leader in large-scale metal 3D printing, utilizing advanced wire-arc additive manufacturing (WAAM) to produce complex, near-net-shape components measured in feet rather than inches. Operating 24/7, this vertically integrated service provider leverages over 125 years of welding expertise to deliver high-quality, finished parts for critical industries such as aerospace, automotive, and power generation. By replacing traditional castings and forgings with efficient, high-deposition processes, they significantly reduce lead times and material waste while offering unparalleled design freedom for industrial applications.
MELD PrintWorks is an ISO 9001 certified spin-off of MELD Manufacturing Corporation that specializes in using patented Additive Friction Stir Deposition (AFSD) to provide 3D printing services for high-value metal components. This unique solid-state process eliminates melting, allowing for the rapid production of large-scale, defect-free parts with forged-like properties in alloys such as aluminum, titanium, and copper. By bypassing the limitations of traditional casting and forging, the company delivers high-performance solutions with significantly reduced lead times for critical industries like aerospace, defense, and automotive.
Printerior is a pioneering technology startup that specializes in large-format robotic additive manufacturing and sustainable 3D printing services, producing millions of parts monthly from its 25,000-square-foot facility in St. Louis. The company offers a unique circular economy model by providing a nationwide recycling program where users can exchange PLA and PETG waste for points toward the purchase of their high-quality recycled filaments and pellets. By combining custom-developed robotic printers with advanced automation and a proprietary material stack, Printerior empowers clients in the architectural, furniture, and industrial sectors to achieve scalable, eco-friendly manufacturing solutions.
HiveASMBLD is a Houston-based construction technology leader that utilizes advanced robotics, AI-driven project management, and proprietary low-carbon mortar to deliver cost-effective and sustainable 3D-printed housing. Through its unique hybrid building system, the company integrates large-scale additive manufacturing with precision panelized elements for roofs and interiors to significantly reduce waste and accelerate build times. From custom residences to large-scale affordable housing developments like Zuri Gardens, HiveASMBLD is redefining the industry by providing resilient, energy-efficient homes designed to withstand extreme weather conditions.
Decibel Made is a sustainable furniture and architectural design brand that utilizes large-format robotic 3D printing and recycled polymers to create circular, on-demand products. The company collaborates with architects and designers to produce custom sculptural forms, installations, and retail elements with minimal waste through its advanced fabrication studio in Bloomingdale, New Jersey. By integrating AI-powered design tools and localized manufacturing, they offer scalable fulfillment and rapid prototyping services that eliminate traditional inventory constraints.
Haddy is a U.S.-based pioneer in large-scale digital manufacturing that utilizes AI-driven robotics and sustainable, circular materials to produce custom furniture and industrial components. Their state-of-the-art microfactory in St. Petersburg, Florida, features a fleet of eight robotic systems capable of high-speed production for sectors ranging from interior design to national defense. By leveraging a closed-loop system, the company upcycles materials like PETG composites and biodegradable fibers into durable, high-performance products that can be returned and reprinted at the end of their lifecycle.
Emerging Objects is an Oakland-based "MAKE-tank" founded by Ronald Rael and Virginia San Fratello that specializes in innovative 3D-printed architecture and material development. The studio is renowned for its experimental use of diverse materials like salt, clay, and recycled rubber to create full-scale building components and unique structural prototypes. By bridging the gap between digital manufacturing and architectural design, they provide expert consultation and cutting-edge software solutions to push the boundaries of modern construction.
Neobrutal is a pioneering design technology studio in Miami that revolutionizes architectural manufacturing through large-scale 3D printing and robotics. They specialize in mass customization for the architecture industry, providing an integrated platform of design, hardware, and sustainable materials to create complex, unique structures at scale. Beyond fabrication, the studio offers expert consulting in additive manufacturing integration and process optimization to help architects transform ambitious digital visions into physical reality.
Omniform specializes in large-format additive manufacturing (LFAM), utilizing robotic arm systems and fiber-reinforced thermoplastics to produce high-performance models, molds, and custom parts. Based in Istanbul, the company serves demanding industries such as automotive, marine, and aerospace by delivering advanced technological solutions for composite mold production and industrial furniture. Their expertise in combining cutting-edge robotics with specialized materials allows for the rapid fabrication of complex, durable structures tailored to specific engineering requirements.
Alchemist is an advanced robotic manufacturing and interior fit-out studio based in Abu Dhabi, specializing in large-scale 3D printing using sustainable materials like recycled polymers and natural clay. By combining computational design with robotic fabrication, they deliver bespoke architectural elements, luxury furniture, and turnkey interior solutions for residential and commercial projects. Their innovation lab utilizes cutting-edge KUKA robotic arms and pellet extruders to provide rapid prototyping and eco-friendly production, redefining modern spaces through circular design principles.
iSCALE3D is a Swiss startup specializing in large-scale robotic 3D printing and patented cement-free composite concrete extrusion technology, which reduces carbon emissions and provides superior thermal insulation. In collaboration with LEMKI Robotix, they developed the DISCOVER 3D, the world’s first 3D-printed mobile home made from 80% recycled materials like polypropylene and fiberglass. Their advanced manufacturing systems, including KUKA robotics and Fused Granulate Fabrication, enable the creation of diverse applications ranging from sustainable housing to autonomous off-road utility vehicles.
Base Materials is a leading UK-based manufacturer specializing in high-performance syntactic materials and advanced tooling boards for industries including aerospace, automotive, and subsea buoyancy. Their cutting-edge large-format 3D printing service utilizes advanced robotics and a specialized ProXtrude® paste system to produce near-net-shape models with significantly reduced material waste. Committed to sustainable innovation, the company operates state-of-the-art production and R&D facilities in Leicester and Birmingham to deliver tailored, high-value technical solutions globally.
Reform3d is an Australian manufacturing service provider based in North Albury that specializes in innovative, robotic 3D printing solutions for civil construction. The company’s flagship product, the Culvert Kit, is a lightweight and sustainable culvert crossing system engineered from 100% recycled polymer to withstand heavy axle loads. By combining sophisticated 3D technology with rigorous testing, Reform3d delivers high-strength, eco-friendly alternatives to traditional concrete infrastructure that are easy to transport and install by hand.
LAMA is a Santiago-based pioneer in large-format additive manufacturing, utilizing industrial robotic arms and specialized polymer extruders to transform recycled plastic waste into sustainable urban structures and high-value design objects. Founded in August 2025, the company is the first in Latin America to operate at this scale, utilizing materials like discarded fishing nets and mining waste reinforced with natural additives like ground mussel shells. By merging robotic precision with circular economy principles, LAMA provides architects and municipalities with innovative, low-carbon solutions for public infrastructure, furniture, and architectural modules.
Fab.Pub is a sustainable digital fabrication bureau in London that specializes in large-format robotic 3D printing using recycled granulated plastics and bioplastics like fermented sugarcane. A joint venture between Therme Group and Mamou-Mani Architects, the "urban factory" offers end-to-end services including parametric design, 3D modeling, laser cutting, and on-site installation for architectural and design projects. By prioritizing circular economy principles and local production, they empower designers and businesses to create intricate, eco-friendly structures such as facades, furniture, and custom architectural partitions.
Norco Composites is a leading UK-based manufacturer specializing in large-scale lightweight composite structures and GRP mouldings for the aerospace, marine, defense, and automotive sectors. Operating from six facilities with over 130,000 sq ft of capacity, they provide a comprehensive "one-stop" service including CAD design, 5-axis CNC machining, additive manufacturing, and advanced clean-room lamination. Certified to AS9100 standards, the company collaborates with global leaders like BAE Systems and Airbus to deliver high-performance components ranging from eVTOL aircraft fuselages to marine survey vessels.
Factory Of Us is a Turkish manufacturing service revolutionizing the furniture industry through cutting-edge 3D printing technology and a deep commitment to sustainability. Utilizing 100% recyclable biocomposite materials, the company offers personalized design and production services for eco-friendly furniture and home accessories that reduce environmental impact by up to 90%. By bridging the gap between designers and customers on a collaborative platform, Factory Of Us provides a seamless, automated process for creating high-quality, circular economy products.
ALPAXA 3D is a specialized manufacturing studio based in Konya, Turkey, providing professional 3D printing, laser cutting, and UV printing services for industrial and creative applications. They support a wide range of industries including automotive, electronics, and architecture by delivering high-precision functional parts, prototypes, and custom enclosures. With a focus on engineering excellence, ALPAXA offers end-to-end support from CAD design to final production, ensuring cost-effective and flexible manufacturing for both single-piece orders and low-volume runs.
Polyproducts B.V., through its specialized label ENLARG3D, leverages over 50 years of composite expertise to provide large-scale robotic 3D printing using advanced CEAD CFAM Prime technology. They specialize in creating complex, high-strength structures and modular components for sectors like interior design and the maritime industry using fiber-reinforced and recycled materials. By integrating multi-axis extrusion with traditional craftsmanship, the company offers a complete manufacturing solution from initial engineering and mold-making to the final production of durable, custom-shaped parts.
Founded in 2015 by architects Panos Sakkas and Foteini Setaki, TheNewRaw is a Rotterdam-based research and design studio that transforms plastic waste into 100% circular furniture using robotic 3D printing. The studio bridges digital precision and traditional craftsmanship to create durable, tactile products for public and private spaces, such as the Print Your City initiative and the Elements collection made from marine plastic. By maintaining an in-house production facility, they provide specialized manufacturing services that convert local waste streams into high-aesthetic, functional artifacts that promote sustainable urban ecosystems.
Royal3D is a Dutch additive manufacturing leader specializing in large-scale 3D printing for the maritime, industrial, and architectural sectors using advanced CEAD CFAM Prime and ABB robotic arm technologies. They offer a comprehensive suite of services including engineering, on-demand production, and the innovative Interlayer Control System for real-time quality monitoring and thermal tracking. Committed to a circular economy, the company utilizes recycled, recyclable, and biodegradable thermoplastics to create durable products like transport cradles, aquatic drones, and sustainable interior solutions.
RAW IDEA is a Rotterdam-based manufacturing service founded in 2020 that specializes in large-scale robotic 3D printing for the maritime, furniture, and R&D sectors. Utilizing advanced systems like the ABB IRB robotic arm and the CEAD Flexbot hybrid system, they provide high-precision production of complex structures such as luxury boats and durable furniture using sustainable thermoplastic composites. Their comprehensive workflow spans from initial CAD design and prototyping to 24/7 industrial-grade production and post-processing across multiple locations in the Netherlands.
ShapeService is a Dutch large-format additive manufacturing bureau that specializes in creating circular and cost-effective products for the furniture, construction, and infrastructure sectors. Based in Nieuwendijk, the company leverages its extensive expertise in large-scale FDM technology to co-create sustainable, one-piece solutions for complex geometries. By focusing on industrial-grade 3D manufacturing, ShapeService helps partners streamline production while reducing environmental impact through innovative, circular business models.
Saint-Gobain Weber is a pioneer in 3D concrete printing, having opened Europe's first commercial printing factory in Eindhoven in 2019 and since expanding with a second facility in the Czech Republic. The company provides end-to-end services from design to delivery, utilizing advanced robotic technology and specialized mortars to create complex, organic structures like bridges, stairs, and urban furniture with 40-60% less CO2 emissions. Their innovative process is officially Kiwa certified, ensuring high-quality, sustainable, and validated custom concrete solutions for architects, contractors, and municipalities worldwide.
Based in Woudsend, IMPACD Boats is a pioneering Dutch shipyard that produces 3D-printed sustainable motorboats using recycled materials like PET bottles. Their innovative sloops, developed in collaboration with TU Delft, are 74% more sustainable than traditional models and are designed to be fully recyclable at the end of their lifespan. By combining computer-guided precision with expert craftsmanship and electric propulsion, the company offers an eco-responsible boating experience that leads the industry toward a circular and green future.
Holit is a Dutch manufacturing service provider based in Moergestel that specializes in large-scale robotic 3D printing using advanced plastic pellet-based extrusion. They offer comprehensive contract manufacturing for functional prototypes, molds, and end-use parts, utilizing high-performance thermoplastics and custom toolpath generation to ensure industrial-grade performance. By combining design consultancy with expertise in material testing and hybrid part integration, Holit helps clients optimize complex projects for printability and durability in demanding applications.
HB3D is a leading Amsterdam-based specialist in large-scale robotic 3D printing, utilizing industrial robot arms and sustainable pellet-based extrusion to create XXL objects up to 10 meters long. Founded in 2015, the company operates six advanced production lines that bridge the gap between complex CAD-CAM engineering and circular manufacturing for the maritime, construction, and interior design sectors. By combining expertise in parametric design, robotic milling, and recycled thermoplastics, they provide a complete end-to-end solution from initial prototyping to high-volume, zero-waste series production.
Aectual is a world-leading design-to-delivery platform based in Amsterdam that specializes in circular, XL robotic 3D printing for the architecture and interior design industries. Using 100% recyclable and plant-based materials, the company produces customizable products ranging from terrazzo flooring and acoustic wall panels to entire buildings for global brands like Nike, BMW, and Schiphol Airport. Their sustainable approach reduces CO2 emissions by up to 80% and features a "circular loop" service where old products are taken back, shredded, and reprinted into new designs.
Nedcam is a Dutch leader in 3D shaping technology that provides end-to-end solutions for large-scale manufacturing across the marine, renewable energy, and infrastructure sectors. Using advanced CEAD and Fanum XXL robotic systems, the company offers Fused Granulate Fabrication (FGF) services to print objects up to 12 meters long using sustainable, 100% recyclable thermoplastics. Through strategic partnerships with industry leaders like DSM, Nedcam is driving the transition toward a circular economy by replacing traditional thermoset molds with high-performance, eco-friendly 3D printed alternatives.
Neolithic is a Dutch technology company specializing in high-speed, robotic 3D concrete printing for large-scale construction and infrastructure projects. Using parametric design and an optimized digital workflow, they provide mass-customized, sustainable solutions such as prefab manholes, stairs, and nature-inclusive "fish hotels" that reduce material waste and lead times. Their innovative approach, which earned them the RIONED Innovation Award 2024, bridges the gap between digital design and efficient off-site manufacturing to create a new standard for functional, climate-resilient urban environments.
3D Makers Zone (3DMZ) is a premier Smart Industry Fieldlab in the Amsterdam Metropolitan Area that accelerates digital transformation by merging industrial 3D printing with AI, IoT, and robotics. Operating from a creative technological hub in Haarlem, the facility provides cross-sector innovation programs, professional 3D scanning, and large-scale additive manufacturing services for prototypes and end-use products. Through its expertise in sustainable materials and advanced manufacturing, 3DMZ bridges the gap between research and commercial application for industry leaders, educational institutions, and government partners.
10XL is a leading Dutch engineering firm specializing in large-scale, circular 3D printing for maritime, infrastructure, and interior sectors. By combining human expertise with custom-built robotic machines, they transform recycled and biobased plastics into functional, industrial-grade products like boats, bridges, and designer furniture. Their sustainable production model emphasizes co-creation and series manufacturing to provide economically responsible alternatives to traditional fabrication methods.
SAEKI is a pioneering Swiss robotics startup that bridges the gap between complex engineering designs and large-scale manufacturing through its autonomous, decentralized micro-factories. By combining large-format 3D printing with precision CNC machining and automated inspection, the company delivers industrial-grade components and composite tooling in a matter of days rather than weeks. Founded by experts from ETH Zürich and backed by significant venture funding, SAEKI empowers industries like aerospace and automotive to iterate faster while promoting sustainability through reshored, digital production.
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Tec3D is a Swiss additive manufacturing specialist based in Saillon that provides custom design and production services for precise components and hard-to-find parts. Utilizing advanced 3D printing technologies, the company serves as a partner for businesses seeking efficient, tailor-made manufacturing solutions. Their mission focuses on driving a sustainable industrial revolution through innovative, responsible production practices that bridge the gap between design and high-quality functional components.
WAAMLABZ is a Swedish university spin-off based on decades of research in welding and additive manufacturing, specializing in Wire Arc Additive Manufacturing (WAAM) systems and Technical Data Packages. The company provides complete robotic WAAM cells and proprietary "recipes" that enable consistent, on-demand production of large-scale metal components for the defense, aerospace, and marine sectors. By utilizing digital instructions and optimized process parameters, WAAMLABZ helps industries reduce material waste by up to 90% while achieving superior strength in high-performance applications like advanced ship propellers.
Sculptur is a Swedish manufacturing service that specializes in large-scale 3D printing and circular transition, enabling the creation of advanced prototypes and sustainable products. By refining design and technology, the company offers cost-effective additive manufacturing solutions that prioritize both technical perfection and environmental responsibility. Based in Karlshamn, Sculptur supports businesses in their transition to circularity by transforming recycled materials into high-quality, functional 3D-printed objects.
Nagami is a pioneering design brand based in Spain that pushes the boundaries of digital fabrication through large-scale robotic 3D printing. By utilizing cutting-edge pellet-based extrusion and recycled plastics, the company creates sustainable, high-tech furniture and architectural elements for prestigious clients like Dior, Cartier, and Ecoalf. From its headquarters in Ávila, Nagami offers end-to-end design and production services, transforming recycled waste into unique, eco-innovative pieces that redefine modern interiors and structural design.
Movecho is a Portuguese manufacturer that specializes in bespoke furniture and interior design solutions by merging traditional craftsmanship with advanced robotic manufacturing. The company utilizes a KUKA robotic arm equipped with a pellet extrusion system to produce large-format 3D prints from recycled plastics, enabling the creation of complex geometries for luxury retail and architectural projects. Beyond its technical offerings, Movecho focuses on sustainability and innovation to provide integrated, high-end design services for the hospitality and custom furniture markets.
Based in Barcelona, LaMáquina is a leading advanced manufacturing center specializing in large-scale robotic 3D printing for architecture, design, and industrial applications. The company utilizes a diverse range of materials, including bio-based composites, recycled technical polymers, and clay, to deliver sustainable and innovative solutions like the historic 3D-printed ceramic cladding for the Sagrada Família. By integrating computational design with multi-axis robotic fabrication, LaMáquina provides a comprehensive workflow from parametric engineering to professional post-production and assembly.
PIXOM is a pioneering Portuguese design brand that merges sustainable materials, generative design, and artificial intelligence with robotic 3D printing to transform digital pixels into extraordinary physical objects. Founded by Armando Alves and Le Brimet, the company operates under the philosophy of Turning Pixels into Atoms to create innovative, eco-friendly products that challenge traditional manufacturing boundaries. By utilizing advanced robotic arms and digital culture, PIXOM delivers unique, tech-driven design solutions that fuse the physical and digital realms for a variety of creative industries.
LOWPOLY is a Madrid-based design and manufacturing studio specializing in sustainable material development and large-scale robotic 3D printing. The company provides expert consulting, R&D, and production services using eco-friendly materials like recycled plastics, biomaterials, and clay to promote responsible fabrication practices. By merging creative design experimentation with cutting-edge technology, LOWPOLY helps businesses transform waste into high-quality, functional products for a more circular economy.
Gardna 3D is a Polish company specializing in robotic 3D concrete printing for architectural and structural elements. Based in Poznań, they offer integrated R&D support for material development and automation alongside prototyping services for concept models and prefabricated components. Their technology enables the production of complex, material-efficient designs, providing sustainable and innovative solutions for the modern construction industry.
REV3RD is an Italian pioneer in Large Scale Additive Manufacturing, specializing in custom-built 3D printing systems like the RD-HUGE and high-performance pellet extruders capable of processing recycled materials. Their RD-Series extruders offer extrusion rates from 5 to 250 kg/h and are designed for seamless integration with CNC machines and robotic arms across the aerospace, automotive, and construction sectors. Through strategic partnerships with leaders like Orbital Composites and MULTIAX CNC, the company provides sustainable, industrial-grade solutions including design services, material testing, and hybrid manufacturing systems.
Treddy is an Italian additive manufacturing leader based in Pescara that specializes in large-format robotic 3D printing using granular thermoplastics to create industrial prototypes and final products. By utilizing cutting-edge pellet-based technology, the company offers a sustainable and cost-effective alternative to traditional supply chains, enabling on-demand production and dematerialized digital archives. Treddy partners with both local and international firms to revolutionize production workflows, providing comprehensive support from initial design and topological optimization to final series production.
Quasizero is an Italian manufacturing service based in Perugia that specializes in transforming product design through the use of alternative, eco-friendly materials. By utilizing a sustainable robotic 3D printing process, the company collaborates with designers to create innovative biomaterial products that prioritize environmental responsibility. Their cutting-edge approach merges advanced robotics with circular economy principles to help businesses reinvent their offerings for a greener future.
Established in Malaysia in 2023, Foremost AddiTech is a premier industrial additive manufacturing service provider specializing in advanced 3D printing technologies like SLA, SLM, and FGF. The company offers large-scale production capabilities with build volumes up to 2.7 meters and provides comprehensive solutions including 3D scanning, reverse engineering, and collaborative product development. Committed to international competitiveness and ESG principles, they serve various industries by bridging technological gaps with rapid, locally manufactured, and high-precision components.
NUGAE is an Italian-based manufacturing service provider that specializes in large-format additive manufacturing using advanced industrial robotics. The company utilizes robotic systems to extrude plastic polymers and composites, offering highly flexible contract manufacturing solutions for complex industrial and design applications. By integrating robotic precision with 3D printing technology, NUGAE enables the production of oversized components and intricate geometries that traditional manufacturing methods cannot achieve.
Founded in 2021, Fluente is an innovative Italian design studio that bridges the gap between traditional craftsmanship and technological revolution by 3D printing timeless furniture from recycled stoneware. Utilizing a sustainable mixture of at least 50% crushed ceramic industry waste and virgin clay, the company produces durable, weather-resistant pieces like armchairs, stools, and vases that are fired at 1200°C for lifelong quality. Their Mediterranean-inspired offerings include bespoke printing services and customizable products, allowing architects and design professionals to integrate eco-friendly, high-performance ceramics into both indoor and outdoor spaces.
ARCreo is a Modena-based specialist in advanced metal 3D printing that utilizes the innovative ARC additive welding process to manufacture high-quality, large-scale components for industrial applications. With over a century of heritage through its Australian roots, the company provides expert manufacturing services and print bureau solutions to sectors such as construction, mining, and aerospace. ARCreo remains at the forefront of the industry by offering automated scheduling programs and 3D capabilities that ensure precision, cost-efficiency, and sustainable production.
KEEEN is an Italian manufacturing service bureau based in Bologna that specializes in advanced 3D printing and robotic automation solutions. The company leverages cutting-edge additive manufacturing technologies to provide high-quality prototyping and production services for complex industrial components. By integrating robotic systems with precise 3D printing, KEEEN delivers innovative, customized engineering solutions across various sectors, including automotive and industrial manufacturing.
Based in Bergamo, Italy, NANOO is a specialized manufacturing service provider that utilizes robot-controlled 3D printing and granular materials to create custom furniture and artistic design objects. The company focuses on sustainability by transforming recycled plastics into high-quality functional pieces through advanced additive manufacturing techniques. Their expertise bridges the gap between digital design and physical production, offering bespoke solutions for clients seeking innovative, eco-friendly interior and artistic elements.
Based in Königsberg, Germany, studiobenkert is a premier manufacturing bureau that specializes in large-format 3D printing for architecture, art, and industrial design. Led by second-generation owner Jochen Benkert, the company leverages over 35 years of craftsmanship and state-of-the-art robotic technology to produce precise prototypes and functional, oversized products. Committed to sustainability, they offer eco-friendly production solutions using 100% recyclable and upcycled materials to bring visionary designs to life.
Founded in 1995 and headquartered in Lupburg, Germany, FIT Additive Manufacturing Group is a global leader and pioneer in industrial 3D printing with over 30 years of expertise. The company offers a comprehensive value chain from additive design to production, utilizing over 50 industrial systems across 15 different technologies to serve the automotive, aerospace, medical, and machinery industries. Beyond its world-class additive capabilities, FIT integrates conventional manufacturing methods like CNC milling and injection molding, while leading the industry in AI-supported quality control and sustainable construction solutions.
Founded in 2020 as a subsidiary of the FIT Additive Manufacturing Group, additive tectonics GmbH revolutionizes construction through large-format 3D printing and computational design. The company utilizes its proprietary Selective Cement Activation (SCA) technology and sustainable Econit material system to produce complex, waste-free architectural components ranging from facades to entire structural elements. By integrating robotics and cybernetics, they provide a complete design-to-production workflow for architects and builders seeking innovative, ecological solutions for the built environment.
Based in Northern Germany, recozy.de is a circular design studio that revolutionizes the home decor industry by using robotic large-format 3D printing to create sustainable furniture and accessories from recycled plastics. Their in-house production process utilizes a robotic arm with a reach of nearly four meters, enabling the creation of intricate, organic designs like vases and tables that are both resource-efficient and customizable. By focusing on modular construction and local material sourcing, the company ensures that every made-to-order piece can be easily disassembled and reintegrated into the production cycle at the end of its life.
Based in Dresden, Germany, Daktyl specializes in large-scale additive manufacturing using industrial robot arms and Fused Granular Fabrication (FGF) to create components up to 8 x 2 x 2 meters. The company is dedicated to a circular economy, utilizing 100% recyclable plastic flakes and pellets while offering a unique recycling service where customers can return used prints to be repurposed into new material. By combining expert design services with sustainable manufacturing, Daktyl helps clients in sectors like interior design and technical parts reduce their carbon footprint through efficient, zero-waste production.
Post Industrial Crafts (PIC) is a French industrial startup that reinvents urban and interior spaces through large-format robotic 3D printing and circular design. Led by designer Guillaume Crédoz, the studio utilizes 100% recycled materials, such as polycarbonate from car headlights, to create bespoke, waste-free architectural components and sustainable furniture. By blending high-tech multi-axis fabrication with local craftsmanship, PIC delivers functional, sculptural installations that are both durable and fully recyclable.
Robot Faber is a French digital fabrication studio specializing in 5-axis robotic additive manufacturing and 3D milling for architectural and artistic applications. The company excels in parametric design and feasibility development, utilizing materials such as ceramic, porcelain, and plastic for complex projects like large-scale sculptures. By bridging the gap between traditional craft and robotic computation, they offer specialized services including clay extrusion and in-house firing for unique, high-precision creations.
LITHOSYS, a brand of the French Vicat Group, specializes in comprehensive robotic concrete 3D printing solutions for construction, urban design, and marine biodiversity. Operating from a dedicated R&D and production unit in Chambéry, the company provides proprietary low-carbon LITHOMIX inks, custom material formulations, and specialized LITHOSIM software. Their expertise spans the entire value chain, from design to on-site production, enabling material savings of up to 70% and the creation of complex, sustainable structures like artificial reefs and eco-designed marine ballasts.
FORMES ET VOLUMES is a French fabrication studio specializing in large-scale robotic manufacturing, 5-axis CNC machining, and digital fabrication for architecture, design, and industrial prototyping. With nearly 40 years of expertise, the company produces high-precision custom components, complex molds for the composite industry, and full-scale models using advanced materials like polyurethane foam and polystyrene. They integrate cutting-edge technologies, including 3D scanning and virtual reality, to deliver innovative, tailor-made solutions for diverse sectors ranging from naval architecture to urban furniture design.
4DXLab is a French research and design studio specializing in large-scale robotic additive manufacturing and computational design for industrial and creative applications. Using advanced pellet-based extrusion of recycled plastics, the lab develops sustainable workflows to produce architectural components, furniture, and functional prototypes at scales up to several meters. Their multidisciplinary team, which holds over 15 global patents, bridges the gap between R&D and series production while maintaining a commitment to circular economy principles and eco-conception.
POOLP is a premier design and fabrication studio in Bagnolet, France, specializing in sustainable, large-scale robotic 3D printing using recycled plastic pellets. We support architects, designers, and industrial partners by transforming complex concepts into reality through advanced computational design and eco-friendly manufacturing. Our innovative offerings range from custom furniture and interior architecture to immersive retail installations, all created with a focus on circular design and material optimization.
Hyperion Robotics is a Finnish construction technology leader that combines large-scale industrial robotics, proprietary software, and low-carbon concrete to automate the production of critical infrastructure. By optimizing structural designs, the company reduces material usage by up to 75% and carbon emissions by 90% compared to traditional methods, serving major utility clients like National Grid and Yorkshire Water. With the launch of Forge I in the UK, Hyperion is scaling its ability to deliver code-compliant, sustainable foundations and drawpits three times faster than conventional construction processes.
Based in Thy, Denmark, AddiThy specializes in additive manufacturing and 3D printing of small series and custom plastic parts using FFF, SLS, and FGF technologies. They provide comprehensive services including rapid prototyping, design for additive manufacturing (DfAM), and the production of large-format interior elements and functional components. Committed to sustainability, the company offers specialized solutions using recycled polymers and can handle build volumes of up to 4.5 x 5 x 2.2 meters to meet complex industrial needs.
CZ PLAST s.r.o. is a Czech-based leader in rotational plastic moulding and multiaxis robotic additive manufacturing, specializing in the production of fuel tanks, water management systems, and custom industrial components. The company offers end-to-end services from design to production, utilizing advanced 3D printing with filaments and pellets within a large-scale printing volume of up to 2.8m x 1.8m x 2.4m. With nearly three decades of experience, they combine traditional rotomoulding expertise with cutting-edge robotic technology to deliver durable, stress-free plastic solutions for the automotive, agriculture, and utility sectors.
So Concrete is a Czech-based pioneer in digital concrete technology that utilizes robotic fabrication and topological optimization to create sustainable architectural structures. By combining ultra-high-performance concrete (UHPC) with innovative 3D production methods, they achieve material savings of up to 60% and significant CO2 reductions. Their multidisciplinary team provides comprehensive solutions for complex facade panels and unique design projects, bridging the gap between visionary aesthetics and functional durability.
Phoenix Design Lab is a Belgium-based specialist in large-format robotic 3D printing, serving as both a production partner for architects and designers and a technology provider for those seeking in-house manufacturing solutions. The company produces modular furniture, architectural features, and custom tooling using purpose-built recycled materials engineered for a circular economy. In addition to manufacturing services, they develop and sell turn-key modular production cells and Phoenix-engineered printers, providing comprehensive installation, training, and ongoing technical support.
Guaranteed is a specialized manufacturing service provider based in Zelzate, Belgium, that focuses on XXL metal wire and arc additive manufacturing for production and repair. The company offers a comprehensive one-stop-shop approach, utilizing advanced process monitoring and digitalization to ensure high product performance and quality for large-scale industrial components. By bridging the gap between traditional manufacturing and cutting-edge technology, Guaranteed provides sustainable and efficient solutions for complex engineering challenges across various sectors.
Footprint Inc. is a Belgium-based pioneer in circular 3D printing that specializes in large-format manufacturing using robot-controlled arms and advanced pellet extrusion technology. The company offers a comprehensive range of services, including custom furniture design, industrial prototyping, and specialized branding solutions, all while prioritizing the use of recycled and fiber-reinforced plastics. By developing its own proprietary 3D printers and maintaining a local service hub in Brugge, Footprint Inc. enables sectors like construction and interior design to access sustainable, high-precision additive manufacturing.
MDT A/S specializes in custom lightweight designs and constructions, focusing on complex, curved geometries for sectors like architecture, entertainment, and retail. They offer large-scale FDM 3D printing in both new and recycled plastics, alongside expertise in 3D laser scanning and acoustic-regulating products. Based in Kolding, Denmark, the company provides comprehensive services ranging from design consultancy and topology optimization to material research and turnkey production.
Hyperion Systems is an Australian-based technology firm specializing in deployable, large-format additive manufacturing systems, including robotic-arm and gantry-based platforms like the TitanCell and Cobot3DP. Founded in 2022 and headquartered in Perth, the company provides on-demand production of critical parts and infrastructure through containerized manufacturing cells integrated with AI-enabled process intelligence. Their end-to-end solutions support industries such as defense, marine, and construction by offering custom extrusion hardware, software development, and material consultancy to reduce lead times in remote or constrained environments.
Norsk Titanium is a global leader in metal additive manufacturing, utilizing its proprietary Rapid Plasma Deposition technology to produce FAA-approved, structural titanium components for the aerospace, defense, and industrial sectors. Headquartered in Norway with a major manufacturing center in Plattsburgh, New York, the company provides sustainable solutions that significantly reduce material waste and lead times for partners like Boeing and Airbus. Their innovative process delivers forged-strength parts while improving the buy-to-fly ratio by up to 75% compared to traditional manufacturing methods.
One-Off Robotics is a Chattanooga-based advanced equipment manufacturer specializing in turnkey robotic systems for metal additive, subtractive, and hybrid manufacturing processes. Their innovative offerings include the Monarc WAAM platform, custom large-format wire laser deposition cells developed with Meltio, and field-deployable mobile factories for demanding sectors like defense and aerospace. Beyond hardware, the company provides comprehensive services such as on-demand part printing, system engineering, and specialized training to empower industries with cutting-edge robotic fabrication.
MAGGAI is a Rotterdam-based innovator specializing in large-scale robotic additive manufacturing for structural thermoplastic components used in maritime, infrastructure, and mobility sectors. The company develops advanced hybrid production cells that integrate 3D printing, in-situ process control, and post-processing like milling and assembly into a single robotic workflow. By focusing on circular production and the use of recycled or bio-based composites, MAGGAI bridges the gap between applied research and the industrial deployment of certified, load-bearing functional structures.
Coral Construction Technologies, a joint venture between MTX Group and PURPOSIA Group, revolutionizes architecture through its proprietary mobile robotic 3D concrete printing technology. The company offers a comprehensive ecosystem including robotic printer sales, design engineering, and 3DCP-as-a-service for projects ranging from residential homes to complex urban infrastructure like cable car stations. By utilizing "print intelligence" and non-proprietary local materials, they deliver sustainable, high-precision structures with significantly reduced costs and labor compared to traditional construction.
ADDere, a division of Midwest Engineered Systems, specializes in large-scale Laser Wire Additive Manufacturing (LWAM) using high-powered directed energy deposition to produce near-net-shape metal components from titanium, Inconel, and superalloys. Their systems feature 6-axis industrial robots and a closed-loop sensor package that ensures superior metallurgical quality and high deposition rates of up to 30 lbs/hour for mission-critical applications. Beyond selling complete additive engines and enclosed systems, ADDere offers contract 3D printing services and ITAR-compliant data management for the aerospace, defense, and energy industries.
Printed Farms is a Florida-based construction technology startup dedicated to commercializing 3D concrete printing to create sustainable, hurricane-resistant, and cost-effective buildings. Using advanced COBOD BOD2 gantry printers, the company made history by printing Florida’s first permitted 3D structure and later completing the world’s largest 3D printed building, a 10,105-square-foot luxury equestrian facility in Wellington. By automating the building process through their innovative BluePrintz method, they aim to significantly reduce labor costs and construction waste while addressing the regional housing deficit with high-quality, climate-resilient homes.
SQ4D is a New York-based construction technology leader that utilizes its patent-pending Autonomous Robotic Construction System (ARCS) to build sustainable, fire-resistant concrete homes and commercial structures faster and more affordably than traditional methods. The company made history by 3D printing the world's largest permitted residential home and the first to hit the U.S. market with a certificate of occupancy, significantly reducing construction costs and labor. By automating over 20 manual processes and utilizing a precision gantry-style printer, SQ4D provides eco-friendly building solutions that exceed industry strength standards while minimizing environmental waste.
Mighty Buildings is an innovative construction technology company that uses 3D printing, robotics, and proprietary Light Stone Material to produce sustainable, carbon-neutral prefab homes. Based in Oakland, California, the firm has raised over $150 million in funding and achieved certifications for its advanced automated manufacturing process that significantly reduces construction waste. Following a strategic restructuring, the company announced in early 2025 that its assets and innovative technology portfolio are available for sale through Rock Creek Advisors.
Relativity Space is a pioneering aerospace company that utilizes a proprietary additive manufacturing platform, including the massive Stargate robotic 3D printers, to build the world’s first nearly entirely 3D-printed rockets. By integrating multi-axis robotic arms, AI-driven controls, and advanced metal alloys like GRCop-42, they have successfully launched the Terran 1 rocket and are currently developing the fully reusable, heavy-lift Terran R. Their innovative approach significantly reduces parts count and supply chain complexity, enabling them to go from raw materials to a flight-ready rocket in as little as 60 days.
Orbital Composites builds autonomous, modular digital factories that utilize precision robotics and AI to 3D print high-performance continuous fiber composites for the defense, aerospace, and energy sectors. Their scalable technology includes the entry-level Orbital e- system and mobile, large-scale "SkyBAAM" systems capable of printing structures from 1m to over 100m in size on uneven terrain. By integrating design, simulation, and closed-loop learning, they aim to revolutionize manufacturing speed and cost for advanced components like drones, satellites, and wind turbine blades.
ICON is a pioneer in advanced construction technologies, utilizing the Vulcan robotic system and proprietary Lavacrete to build resilient, 3D-printed homes and large-scale structures efficiently. Beyond residential projects like the 100-home Wolf Ranch community, the company has expanded into military applications and is partnering with NASA to develop lunar and Martian construction systems. Recently, ICON launched the Phoenix multi-story printer and the Titan commercially available system, further revolutionizing the industry with AI-driven design and sustainable building materials.
Branch Technology is a Tennessee-based architectural innovator that utilizes its patented Cellular Fabrication (C-Fab) process to combine industrial robotics, powerful algorithms, and freeform 3D printing. This revolutionary technology enables the creation of large-scale, lightweight lattice structures for high-performance building envelopes, interior panels, and complex architectural elements that were previously impossible to construct. Beyond commercial facades, the company actively develops sustainable solutions such as energy-efficient building retrofits and 3D-printed temporary shelters to address housing transitions.
Black Buffalo 3D is a New Jersey-based leader in large-scale construction technology, known for its NEXCON gantry-based printers and proprietary code-compliant cement inks. The company achieved a major industry milestone by securing the first ICC-ES AC509 certification, verifying that its 3D-printed structural walls meet international building codes for safety and durability. Although the firm filed for Chapter 11 bankruptcy protection in late 2025 to restructure its operations, it remains a pioneer in modernizing construction through sustainable, automated methods for residential and commercial infrastructure.
Continuous Composites is an Idaho-based industry leader that pioneered Continuous Fiber 3D Printing (CF3D), a patented technology combining high-performance continuous fibers with snap-curing thermoset resins. By integrating advanced robotics from partners like Comau and Siemens CNC controls, the company enables the automated manufacturing of complex, moldless composite structures with superior strength-to-weight ratios. Their unified platform optimizes fiber orientation along load paths, significantly reducing lead times and material waste for demanding applications in the aerospace, defense, and automotive sectors.
Apis Cor is an American construction technology company that develops mobile, autonomous robotic systems capable of 3D printing entire buildings directly on-site. Based in Melbourne, Florida, the company holds the Guinness World Record for the largest 3D-printed building and was a top winner in NASA's 3D Printed Habitat Challenge. Through its proprietary printers and specialized concrete blends, Apis Cor aims to revolutionize the industry by reducing construction time to just days while providing affordable, durable housing solutions.
ADDiTEC is a leader in metal additive manufacturing, specializing in innovative Liquid Metal Jetting (LMJ) and Laser Directed Energy Deposition (DED) technologies protected by over 300 patents. Based in Palm City, Florida, the company offers high-performance systems like the AMDROiD and Hybrid 3 that combine robotic 3D printing with CNC machining for industries such as aerospace, defense, and automotive. As a founding partner and master reseller of Meltio in North America, ADDiTEC provides comprehensive support, material testing, and advanced application services to revolutionize large-scale metal component production.
Alquist 3D is a leading construction technology firm that utilizes advanced robotics and sustainable materials to create faster, stronger, and more eco-friendly 3D-printed homes and commercial structures. Now headquartered in Greeley, Colorado, the company has achieved industry milestones such as completing the world’s first owner-occupied 3D-printed home and partnering with Walmart for large-scale commercial expansions. Beyond construction, Alquist actively builds the future workforce through its proprietary A1 printing systems and the nation’s first comprehensive 3DCP curriculum developed with academic partners.
Divergent Technologies is a pioneer in digital manufacturing, utilizing its proprietary Divergent Adaptive Production System (DAPS) to integrate AI-driven design, additive manufacturing, and automated robotic assembly. Headquartered in Torrance, California, the company revolutionizes the production of complex structures for the automotive, aerospace, and defense sectors by eliminating traditional tooling and reducing environmental impact. Its innovative technology has been utilized by major partners like McLaren and the U.S. Air Force to create high-performance, lightweight components with unprecedented speed and scalability.
Contour Crafting Corporation is a pioneering construction technology firm headquartered in El Segundo, California, dedicated to revolutionizing the building industry through large-scale robotic 3D printing systems like the D-Crafter and CrafTrans. Founded by Dr. Behrokh Khoshnevis, the company utilizes advanced concrete extrusion and computer-controlled gantry technology to rapidly construct structures for residential, infrastructure, and extraterrestrial applications. Collaborating with organizations like NASA and the U.S. Navy, the company focuses on delivering sustainable, high-speed solutions to address global housing shortages and advance space exploration.
AI SpaceFactory is a multi-planetary architectural and technology agency that pioneers large-scale, autonomous 3D printing for sustainable habitats on Earth, the Moon, and Mars. Renowned for winning NASA’s 3D Printed Habitat Challenge with its "MARSHA" project, the company utilizes innovative, recyclable biopolymers and in-situ resource utilization (ISRU) to reduce reliance on energy-intensive materials like concrete and steel. Beyond space exploration, they are commercializing their technology through the "Starforge" gantry printers and "TERA" eco-habitats to revolutionize industrial construction and terrestrial living.
Optomec is a global leader in additive manufacturing, specializing in patented LENS technology for high-performance metal fabrication and repair across the aerospace, defense, and medical sectors. Their Laser Engineered Net Shaping (LENS) systems utilize directed energy deposition (DED) to create or restore fully dense components with superior mechanical properties using materials like titanium and Inconel. By integrating these modular print engines with existing CNC platforms, Optomec enables efficient hybrid manufacturing that significantly reduces production costs and cycle times compared to traditional methods.
WasteMine Pte. Ltd. is a Singapore-based leader in sustainable industrial-scale 3D printing, specializing in 100% biodegradable and compostable biopolymer materials. With over a decade of experience and more than 20 systems integrated, they offer comprehensive services including expert consultation, custom hardware and software integration, and advanced materials for large-format applications. Their mission focuses on delivering eco-friendly, high-strength solutions that bridge the gap between industrial manufacturing and environmental responsibility.
Breton is a global leader in large-scale additive manufacturing, offering the Genesi range of industrial 3D printers that utilize AI and machine learning to produce high-quality thermoplastic parts. Their innovative hybrid cells combine FDM extrusion with world-renowned milling units, enabling a seamless transition between additive and subtractive processes for applications in aerospace, naval, and automotive sectors. Beyond machine sales, Breton provides comprehensive 3D printing services and expert support, allowing companies to prototype and manufacture large-scale components quickly and sustainably.
Oxido Studio is a multidisciplinary creative studio based in Barcelona that bridges the gap between art, engineering, and digital production to deliver unique, high-detail works worldwide. Their extensive range of services includes CAD design, structural simulation, and advanced manufacturing solutions such as milling with KUKA robots and material consultation. By uniting craftsmanship with cutting-edge technology, the team provides end-to-end support from initial concept to final execution for projects requiring artistic precision and technical rigor.
MetalWorm is a Turkish pioneer in robotic Wire Arc Additive Manufacturing (WAAM) and Directed Energy Deposition (DED), offering end-to-end turnkey systems that include advanced hardware, software, and automation. Since its 2015 spin-off from Intecro, the company has introduced specialized technologies like active heating, cooling tables, and arc voltage control to optimize material properties and production speed for large-scale metal parts. Serving sectors such as aerospace, defense, and maritime, MetalWorm provides both commercial 3D printers and print-on-demand services across a global network including Germany, the USA, and Southeast Asia.
DEEP Manufacturing is a world-leading specialist in large-scale metal additive manufacturing, operating one of the largest concentrations of Wire Arc Additive Manufacturing (WAAM) systems globally from facilities in the UK and USA. As the only manufacturer in Europe with full DNV Approval of Manufacture, the company utilizes synchronized multi-arm robotic systems to produce high-integrity components up to 6.2 meters in diameter for mission-critical applications in the energy, maritime, aerospace, and defense sectors. Their advanced technology delivers complex, certified metal parts up to three times faster than traditional forging or casting methods, significantly reducing lead times and material waste while enhancing supply chain resilience.
WAAM3D is a Cranfield University spin-out that provides a comprehensive turnkey ecosystem for Wire Arc Additive Manufacturing (WAAM), including advanced hardware like the RoboWAAM XP and a suite of dedicated CAM software. Founded in 2018 and now part of Accuron Technologies, the company enables industries such as aerospace, defense, and energy to produce large-scale, certified metal components with increased design freedom and reduced lead times. Their integrated solution combines in-house developed products, specialist materials, and expert services to deliver high-productivity metal 3D printing for complex industrial applications.
AVENCO 3D is a global engineering leader founded in 2014 that specializes in large-scale robotic additive manufacturing, including high-performance thermoplastic and concrete extrusion systems. The company provides versatile turnkey solutions for industries like aerospace, defense, marine, and construction, featuring advanced mobility options such as crawler and linear rail systems for on-site production. With a proven track record of delivering innovative projects across six continents, AVENCO 3D enables faster, more sustainable manufacturing of complex geometries and large-scale structures without the need for traditional molds.
Based in Istanbul, Turkey, Alloy Additive is an innovative leader in large-scale metal additive manufacturing, utilizing advanced Wire Arc Additive Manufacturing (WAAM) and Gas Tungsten Arc Welding (GTAW) technologies to produce parts up to 1.5 meters in height. The company provides turnkey industrial solutions and premium engineering services for the aerospace, marine, and energy sectors, working with high-performance alloys such as titanium, stainless steel, and Inconel. By integrating robotic systems with proprietary control software, Alloy Additive significantly reduces lead times and material waste while delivering complex, high-precision components like propulsion systems and corrosion-resistant wellheads.
RAMLAB is a Rotterdam-based technology leader specializing in Wire Arc Additive Manufacturing (WAAM) for the on-demand production and repair of large-scale metal parts. Through its advanced MaxQ 3D Print and MaxQ Repair systems, the company provides turn-key robotic solutions that integrate automated monitoring, quality inspection, and certification to significantly reduce lead times and costs. By collaborating with industry giants like Valk Welding, RAMLAB bridges the gap between research and commercial application, delivering sustainable manufacturing solutions for the maritime, aerospace, and energy sectors.
MX3D is an Amsterdam-based leader in robotic Wire Arc Additive Manufacturing (WAAM), famous for creating the world's first 3D-printed stainless steel bridge. The company provides turnkey M1 and MX systems powered by their proprietary MetalXL software, enabling the in-house production of large-scale, complex metal components weighing up to 10,000 kg. Beyond system sales, MX3D operates one of the world's largest WAAM facilities, offering certified print-on-demand services for industries ranging from maritime and energy to aerospace and architecture.
Founded in 2013 by Berry Hendriks, CyBe Construction is a leading technology provider that redefines the building industry through 3D concrete printing, parametric design, and automated processes. The company offers a comprehensive "one-stop-shop" solution including various hardware systems like the Robot Crawler and Gantry, proprietary software such as Artysan and Chysel, and specialized CyBe Mortar. With a mission to provide affordable and sustainable housing globally, CyBe has completed international projects and launched the LyVe modular housing concept to reduce construction costs, waste, and CO2 emissions.
Based in Delft, Netherlands, CEAD B.V. is a pioneering technology supplier specializing in large-format additive manufacturing (LFAM) through its flagship robot-based Flexbot and standalone pellet extruders. Founded in 2014, the company offers hybrid solutions that combine 3D printing with CNC milling, focusing on thermoplastic composites for industries such as maritime, aerospace, and automotive. CEAD provides a comprehensive, four-step partnership model that includes business case assessment, hardware implementation, operator training, and ongoing maintenance to ensure sustainable industrial-scale production.
Vertico is a Dutch technology leader specializing in robotic 3D concrete printing solutions, offering integrated systems that include advanced 6-axis robots, license-free slicing software, and specialized printheads like the high-resolution Accelerator model. Based in Eindhoven, the company provides turn-key industrial setups and portable units to empower builders, architects, and educational institutions in creating complex, material-efficient structures such as bridges, facades, and houses. Their innovative approach focuses on reducing CO2 emissions and material waste by up to 60% while unlocking unparalleled design freedom through parametric engineering and automated extrusion.
Founded in 2021 and based in Valencia, Spain, Ziknes is a pioneering technology startup that revolutionizes industrial manufacturing by combining robotics with large-format 3D printing for both metal and polymer materials. The company offers a comprehensive ecosystem including its proprietary Laminar software and modular hardware like the Z-Pellet series, designed to simplify the transition from CAD design to production while promoting circular economy practices through the use of recycled materials. With backing from investors like Mango and Demium, Ziknes provides turnkey solutions and ad-hoc systems that reduce material waste, energy consumption, and lead times across sectors such as automotive, aerospace, and sustainable urban design.
Founded in 2019 and headquartered in Linares, Spain, Meltio is a pioneering industrial technology company that develops affordable and accessible metal 3D printing solutions based on its patented wire-laser Directed Energy Deposition (DED) technology. The company offers a versatile product ecosystem, including the standalone M600 and M450 printers, the Meltio Engine for seamless CNC and robotic integration, and the turn-key Meltio Robot Cell, all designed to enable high-density metal part production and repair. With over 650 systems sold globally across the aerospace, automotive, and defense sectors, Meltio continues to disrupt advanced manufacturing by bridging the gap between additive and subtractive processes through its open hardware and software platforms.
Founded in 2009, CNC Barcenas is a leading Spanish manufacturer specializing in industrial CNC milling machines, 5-axis machining centers, and large-format 3D printers tailored for Industry 4.0. The company pioneered European additive manufacturing with its Discovery 3D Printer line, featuring advanced direct pellet extrusion (FGF) technology and hybrid systems that combine filament and pellet printing. Their fully customizable solutions serve over 400 global clients across the aerospace, automotive, and maritime sectors, providing high-performance machinery backed by comprehensive technical support and ISO 9001 certification.
EVOCONS is a pioneering Spanish technology company driving the transition to Construction 5.0 through its patented EvoConstructor system, a multifunctional gantry robot that integrates AI and 3D printing to automate up to 60% of on-site building tasks. By enabling precision execution with millimetric tolerance, their technology significantly reduces construction timelines by up to four times while cutting CO2 emissions by up to 80% and overall costs by 30%. Beyond their innovative machinery, EVOCONS provides a comprehensive ecosystem including specialized CAD/CAM software, material formulation consultancy, and technical training to support sustainable digital transformation across the global construction industry.
WASP (World's Advanced Saving Project) is an innovative Italian company founded in 2012 that specializes in large-scale 3D printing for construction, art, and design. Based in Massa Lombarda, they develop advanced robot-integrated systems featuring Liquid Deposit Modeling for ceramics and Fused Granular Fabrication for plastic pellets to promote sustainable, circular economy solutions. By focusing on "zero-mile" homes and eco-friendly materials, WASP continues to lead the PropTech industry in creating versatile, high-tech manufacturing tools that address global housing and environmental challenges.
Founded in Italy in 2017, Caracol AM is a global leader in large-format additive manufacturing, specializing in turnkey robotic platforms like Heron AM and Vipra AM for composite and metal applications. The company provides integrated hardware and software solutions that enable industries such as aerospace, automotive, and marine to produce complex, large-scale components more sustainably and efficiently. With headquarters in Lomazzo and a major US production center in Austin, Texas, Caracol supports international clients through advanced manufacturing services, technical support, and innovative process know-how.
Aediltech is a high-tech Italian startup specializing in the Architecture, Design, Engineering, and Construction (ADEC) sector through innovative 3D printing technologies and computational design. The company offers a comprehensive suite of services including research projects, software development, and the production of advanced building components. By merging digital building information modeling with robotic automation, Aediltech is dedicated to redesigning the future of the construction industry.
YIZUMI Germany GmbH serves as the innovation hub for the global YIZUMI group, specializing in the development of advanced additive manufacturing, thixomolding, and multi-material lightweight solutions. Based in Alsdorf near RWTH Aachen University, the company bridges the gap between cutting-edge research and industrial series production through its specialized RampUp and Application Engineering Centers. Their flagship SPACE A system offers a flexible robotic industrial pellet 3D printing solution that integrates seamlessly with traditional injection molding and die-casting processes.
LEAM Technologies is a German startup and Technical University of Munich spin-off that specializes in industrializing large-format extrusion additive manufacturing through its proprietary Directed Energy Material Extrusion (DEMEX) system. The company provides modular, LED-based thermal control units that can be retrofitted to existing robotic 3D printing platforms to enhance interlayer bonding and part strength for high-performance polymers like PEEK. By integrating with the Siemens Xcelerator ecosystem, LEAM enables data-driven, repeatable production processes for demanding sectors including aerospace, automotive, energy, and marine engineering.
Based in Berlin, GEFERTEC is a leading manufacturer of industrial Wire Arc Additive Manufacturing (WAAM) systems, specializing in the efficient production of large-scale metal components. As the developer of the revolutionary 3DMP technology, the company offers a complete turnkey solution—including its modular arc machine series, specialized software, and process consulting—to replace traditional casting and milling with a more sustainable, cost-effective alternative. Now part of the Berlin Industrial Group, GEFERTEC serves global industry leaders in aerospace, energy, and transportation by enabling high-utilization production of metal parts weighing up to 3,000 kg.
1A Technologies UG, a Fraunhofer IWU spin-off and German Innovation Award winner, specializes in revolutionizing additive manufacturing through its patented Screw Extrusion Additive Manufacturing (SEAM) technology. Their innovative bypass nozzle concept allows for precise volume flow control and high-quality processing of fiber-reinforced plastics using cost-effective granulates at rates up to 7kg/hour. Designed for versatility, this standalone extrusion tool can be seamlessly integrated into various machine kinematics, including robots and CNC centers, to enable efficient large-scale industrial 3D printing.
Constructions-3D is a pioneering French manufacturer that specializes in automated on-site concrete 3D printing through its flagship mobile robotic arm, the MaxiPrinter. This innovative system enables the rapid, sustainable construction of large-scale buildings and complex urban structures, significantly reducing labor costs and material waste. Since its spinoff from Machines-3D in 2017, the company has achieved global records for the tallest and largest 3D-printed structures while offering comprehensive training and advanced slicer software for its clients.
AMFREE is a French deep-tech company that develops the AMFREE One, a large-scale hybrid additive manufacturing system utilizing patented multi-wire laser Directed Energy Deposition (DED) technology. Designed for high productivity and ease of use, the turnkey system enables the production and repair of metal parts up to five meters in length for sectors such as aerospace, defense, and energy. By integrating robotic automation with optional 3D scanning and machining capabilities, AMFREE provides a sustainable, circular solution for local manufacturing and industrial sovereignty.
AddUp is a global leader in metal additive manufacturing, founded in 2016 as a joint venture between industry giants Michelin and Fives to industrialize high-precision 3D printing. The company offers a comprehensive ecosystem of industrial-grade solutions, including FormUp powder bed fusion (PBF) machines and BeAM directed energy deposition (DED) systems, alongside specialized software and end-to-end consulting services. Headquartered in France with subsidiaries in the USA and Germany, AddUp serves demanding sectors such as aerospace, medical, and automotive by providing reliable, repeatable, and scalable production technology for complex metal components.
Addcomposites Oy, based in Espoo, Finland, is a pioneering provider of Automated Fiber Placement (AFP) ecosystems, offering advanced solutions like the compact AFP-XS tool and AddPath simulation software. Their comprehensive offerings include tailored robotic cell integration, pilot production projects, and a unique leasing program designed to make high-performance composite manufacturing accessible for aerospace, defense, and research sectors. By combining hardware versatility with user-friendly digital tools, the company enables manufacturers to efficiently work with thermosets, thermoplastics, and dry fibers to optimize production speed and material efficiency.
Rapid Fusion is a UK-based specialist in large-format additive manufacturing (LFAM) that designs and builds modular 3D printing platforms, robotic AM cells, and high-performance pellet extruders like the PE320. Their flagship solutions, including the Apollo, Zeus, and Medusa systems, enable high-speed production of large-scale polymer components for demanding sectors such as aerospace, automotive, defense, and marine. By integrating advanced robotics with sustainable pellet-based extrusion, the company provides a cost-effective alternative to traditional manufacturing for applications ranging from industrial tooling to containerized, deployable systems like the Cerberus.
3DEPOSITION is a pioneering university spin-off from the Brno University of Technology that specializes in large-format additive manufacturing (LFAM) and robotic 3D printing for design, architecture, and art. They offer comprehensive services including the development of custom hardware like extruders, the integration of robotic 3D printing cells, and parametric modeling using Grasshopper and Rhinoceros 3D. Committed to the circular economy, the company focuses on industrial-scale digital production using innovative and recycled materials such as plastic, concrete, and composite mixtures.
Founded in 2017 in Tournai, Belgium, Concrenetics is a pioneering start-up dedicated to shifting the construction paradigm through advanced digital fabrication and robotic 3D concrete printing. The company offers turnkey solutions like the One-X industrial printers and specialized 2K printing units, which feature in-house developed inline mixing and high-performance pumping systems for precision manufacturing. By leveraging computer vision and sustainable material formulations, Concrenetics enables the production of complex architectural elements, permanent molds, and urban furniture with a significantly reduced carbon footprint.
Jet Automation Engineering LTD., based in Istanbul, Turkey, is a specialized system builder and equipment manufacturer providing advanced 3D concrete (3DCP) and metal (3DMP) printing solutions. The company offers custom-designed printers of varying sizes and capabilities, complemented by free proprietary CAD/CAM software and comprehensive expertise in industrial automation, robotics, and mechanical design. With a focus on enhancing productivity and safety, Jet Automation serves as a full-service partner for integrating turnkey robotic cells and innovative manufacturing technologies across Europe and beyond.
3D-Components AS is a Norwegian company specializing in AI-driven tools and advanced services for the rapid development of robust, sustainable manufacturing processes. Based in Oslo, they provide a sophisticated material discovery and process logging platform designed to optimize production parameters and accelerate technical innovation. Their expertise in system building enables clients to implement streamlined, high-performance robotic 3D printing workflows.
FIS Robotics is a Belgium-based system builder located in Genk that specializes in the production of large-scale 3D printed parts and custom machine building. The company leverages advanced software development for robotic 3D printing and utilizes intelligent technologies like machine learning to optimize industrial processes and data maintenance. By focusing on innovation and automation, FIS Robotics provides cutting-edge solutions designed to increase manufacturing efficiency and competitiveness for fast-growing companies.
Caracol North America, based in Austin, Texas, is a global leader in large-format additive manufacturing (LFAM) specializing in modular, turnkey robotic systems like the Heron AM and Vipra AM platforms. Their innovative 6+ axis technology enables the production of complex, large-scale industrial components using composite pellet extrusion and metal deposition for sectors such as aerospace, marine, and energy. Beyond hardware, they provide a vertically integrated ecosystem including proprietary Eidos software, specialized materials, and end-to-end manufacturing services from initial design to final post-processing.
SinuCraft s.r.o. is an innovative Czech engineering company that specializes in high-precision robotic workstations for large-format additive manufacturing (LFAM) and hybrid CNC machining. By integrating advanced MABI robotics with the Siemens SINUMERIK ONE control system, they provide seamless workflows that combine 3D printing and milling to reduce production times by up to 30%. Their tailor-made solutions cater to demanding industries such as aerospace, automotive, and construction, offering unparalleled flexibility for producing complex molds, prototypes, and industrial parts.
ErectorBot is a pioneer in large-format additive manufacturing, offering scalable gantry systems like the HD and IND Series that support multi-process fabrication including 3D printing, routing, and concrete deposition. Led by founder Leonard Dodd, the company specializes in industrial-grade solutions that utilize cost-effective pellet extrusion and can accommodate massive build volumes ranging from 12 to 6,000 square feet. By integrating AI-powered workflow platforms and open-source flexibility, ErectorBot enables designers and engineers to rapidly produce precise, full-scale prototypes for the aerospace, automotive, and maritime industries.
Barcelona 3D Ceramics is a specialized ceramic workshop established in 1982 that has pioneered direct 3D printing since 2015 for global clients in fields like engineering, art, and research. They offer diverse additive technologies including robocasting, binder jetting, and SLA/DLP, allowing for high-precision production ranging from 3mm components to large-format pieces up to 150cm. By combining traditional craftsmanship with cutting-edge digital modeling and sustainable practices, the company provides expert consultancy and custom manufacturing for everything from scientific prototypes to unique artistic commissions.
ArcAngel Additive is a London-based consultancy specializing in end-to-end design, simulation, and manufacturing for high-performance metal 3D printed products. Founded by a team of engineers and innovators, the firm provides expert training and knowledge transfer to help organizations confidently integrate verified additive manufacturing into their production cycles. Their services focus on optimizing print-ready concepts for reduced carbon footprints and peak manufacturability across sectors like aerospace, automotive, and defense.
More Than Layers is an innovative Dutch design studio and B2B concept store founded in 2022 that specializes in computational design and large-format robotic 3D printing. Based in Haarlem, the company collaborates with designers and architects to transform sustainable, bio-based, or recycled materials into unique, circular interior objects and furniture. Their comprehensive services include optimization consultations, custom design workflows using AI and Blender Geometry Nodes, and guidance on scaling production for commercial, residential, and public spaces.
Dyze Design is a Montreal-based leader in high-performance extrusion systems, specializing in advanced pellet and filament extruders like the Pulsar and Typhoon designed for large-scale industrial 3D printing and robotic integration. Their product lineup includes 100% metal, high-temperature hotends, sensors, and the Aurora motion I/O controller, all engineered to withstand rigorous industrial environments up to 500°C. By offering turnkey robotic print cells and OEM components, Dyze Design empowers manufacturers across the aerospace, automotive, and medical sectors to achieve faster production speeds and significant material cost savings.
Transmare CirQlair, part of the Rotterdam-based Transmare Group established in 1953, is a leading distributor and trade organization specializing in high-quality Post-Consumer Recycled Polymers (PCRP). The company provides a wide range of sustainable compounds, including recycled PP, HDPE, and PolyAl, which are used to manufacture everything from large boats and architectural elements to furniture and planters. By offering technical support and customized material recipes through their compounding facilities, Transmare CirQlair helps brand owners and manufacturers close the plastic loop and transition toward a circular economy.
FGF Technology BV is a Netherlands-based specialist in Additive Manufacturing that provides comprehensive solutions for large-scale 3D printing using polymer granules. The company offers a complete ecosystem of services, including product design, proof-of-concept prototyping, and expert consultancy for selecting industrial print heads and CNC systems. By supplying a diverse range of specialized materials like carbon fiber-reinforced compounds and masterbatches, they help industries such as maritime, automotive, and furniture manufacturing achieve cost-effective and sustainable production.
Polymaker is a global leader in the development and manufacture of high-performance 3D printing materials, offering an extensive portfolio that includes the sustainable PolyTerra line and engineering-grade Fiberon composites. Their specialized PolyCore family provides optimized pellet-based solutions for Large Format Additive Manufacturing (LFAM), catering to diverse applications from architectural structures to industrial tooling. Committed to innovation and quality, the company supports its users with a comprehensive ecosystem of print profiles, filament dryers, and technical resources to ensure reliable results across various hardware platforms.
Smart Materials 3D is a Spanish manufacturer specializing in advanced filaments and pellets, such as PLA, ABS, and high-performance composites like carbon fiber, specifically designed for robotic and large-format 3D printing. The company focuses on sustainability and innovation, offering customized formulations and technical materials that include antibacterial properties and chemical smoothing capabilities for diverse industrial applications. Based in Jaén, they provide a comprehensive portfolio of eco-friendly and technical solutions tailored for the demanding needs of extrusion-based additive manufacturing.
Ashland Specialties Ireland, part of the global additives leader Ashland, provides an extensive portfolio of Viatel medical-grade bioresorbable polymers including PLGA, PLLA, and PCL in various granular sizes. Their GMP-compliant and FDA-approved materials are engineered for high-performance applications such as long-acting injectables, regenerative medicine, and advanced medical devices. Beyond off-the-shelf options, the company offers specialized polymerization services to tailor molecular weights and chemistries to meet specific customer project requirements.
3R Additive Technology (Shenzhen) Co., Ltd. is an innovative leader in sustainable additive manufacturing, specializing in the production of high-performance, 100% recyclable titanium and alloy powders using advanced cold forming and regeneration technology. By transforming waste material into high-purity, near-spherical powder, the company significantly reduces costs and titanium utilization for industries including 3C electronics, aerospace, medical equipment, and robotics. Serving over 50 major enterprises, 3R Additive offers a comprehensive one-stop solution that bridges the gap between material recycling and precision 3D printing of custom metal components.
FibeCycle is a Canadian pioneer in the circular economy that transforms decommissioned wind turbine blades into high-performance, eco-friendly fiber-reinforced polymers (ecoFRP). By leveraging proprietary technology to reclaim fiberglass and combine it with recycled plastics, the company offers sustainable resins and filaments specifically engineered for industrial injection molding and robotic 3D printing. Their innovative process significantly reduces CO2 emissions and provides a scalable solution to the global challenge of composite waste while delivering materials with enhanced mechanical properties.
ADAXIS is a French-Swedish robotics software company that develops AdaOne, an intuitive platform designed to transform industrial robotic arms into large-scale 3D printers for metal, polymer, and concrete applications. Founded in 2021 by a team of research engineers from ESTIA and RISE, the company has raised over $1.1 million in funding to simplify complex multi-axis programming and simulation for industries like aerospace, automotive, and construction. Its technology enables sustainable, localized manufacturing by integrating additive, subtractive, and scanning processes into a seamless, robot-agnostic workflow.