Additive Manufacturing Group

AMG Additive Manufacturing Group Manufacturing Freedom Additive Manufacturing Group (AMG) focuses on developing additive manufacturing technologies to produce metal, polymer, and ceramic products with complex and precise geometries. The group harnesses the digital flexibility of these transformative technologies to deliver performance enhancements, fabrication simplifications, and supply chain resilience. This is achieved through the group’s deep end- to-end expertise in AM technologies ranging from design, simulation, feedstock development, AM processes, post-processing, quality assurance to applications. AMG strives to advance additive manufacturing technologies towards ubiquitous adoption as an integrated, smart, resilient, and sustainable manufacturing path. AMG welcomes industry partners and academia to collaborate with SIMTech in cutting-edge research and to develop new solutions through projects and joint labs. AMG also looks forward to opportunities to transfer technologies and conduct training for the manufacturing industry. Relevant Industries Aerospace Land Marine Medtech Transport & Healthcare Oil & Gas Precision Clean Engineering Technology

Customer Story “ Joint Collaboration To Develop Innovation For Industry Needs SIMTech collaborated with Hitachi Metals, Ltd. (HML) to develop high- temperature and high-performance materials for high value-added industry applications. HML is a materials company with a history of innovation in advanced metallurgical technology and development of high-performance materials. The holistic solutions − both Additive Manufacturing (AM) processes and post-processing − enabled HML to supply powder to the AM service bureau with direct support from local engineering and R&D teams. HML would also benefit from early involvement in the product qualification of their AM powders with end-users, giving the company strategic head-ups in their production scale-up later. “ With the combined expertise in SIMTech’s manufacturing processes and Hitachi Metals’ metal powder development know-how, the joint lab is expected to accelerate the adoption of 3D printing by overcoming the current constraints and maximising the potential of 3D printing for industry Mr Kenichi Inoue, General Manager, Global Research & Innovation Technology Centre “GRIT” Hitachi Metals, Ltd MORE STORIES? SCAN HERE Technologies for Transfer Process Know-how for Additive Manufacturing Processes • Gas atomising of titanium-based and nickel-based alloys • Selective Laser Melting (SLM) of aluminium, Inconel, stainless steel and titanium alloys • Electron Beam Melting (EBM) of high entropy alloys, inconel, stainless steel, Co–Cr–Mo alloy, titanium alloys and γ-TiAl intermetallic • Binder Jetting 3D printing (BJP) of stainless steel & ceramic materials • Additive manufacturing of thermoplastic polymers via Selective Laser Sintering (SLS), ProJet printing and Fused Deposition Modelling (FDM) / Fused Filament Fabrication (FFF) Singapore Institute of Dr Seet Hang Li +65 6793 8434 Manufacturing Technology Acting Group Manager (AMG) 2 Fusionopolis Way, #08-04, Innovis, [email protected] Singapore 138634 www.a-star.edu.sg/SIMTech 09/21