Additive Manufacturing and Metallic Microstructures (AM3)
The aim of the AM3 challenge is to address the fundamental materials science problems that underlie the transition from traditional manufacturing techniques to additive manufacturing (AM), with a specific focus on metallic alloys, and the relation between process, microstructure and properties. The project covers multiple aspects of the materials science of metals parts produced in strongly out-of-equilibrium conditions. The project combines the expertise of four academic partners at EPFL, EMPA and PSI.
Prof. Dr. H. Van Swygenhoven (PEM-PSI/NXMM-EPFL)
Prof. Dr. M. Ceriotti (COSMOS-EPFL)
Prof. Dr. R. Loge (LMTM-EPFL)
Dr. Ch. Leinenbach (EMPA)
GE, Oerlikon Metco, Heraeus, Swatch, Rolex, Audemars Piguet, Patek Philippe, Varinor-Richemont
CCMX and Industry
Verification of selective laser melting heat source models with operando X-ray diffraction data
Hocine S, Van Swygenhoven H, Van Petegem S
Additive Manufacturing 37, 101747 (2021)
A miniaturized selective laser melting device for operando X-ray diffraction studies
Hocine S, Van Petegem S, Frommherz U, Tinti G, Casati N, Grolimund D, Van Swygenhoven H.
Additive Manufacturing. 2020; 34: 101194 (9 pp.).
Operando X-ray diffraction during laser 3D printing
Hocine S, Van Swygenhoven H, Van Petegem S, Chang CST, Maimaitiyili T, Tinti G, Ferreira Sanchez D, Grolimund D, Casati N.
Materials Today. 2020; 34: 30-40