[HTML][HTML] The role of the solidification structure on orientation-dependent hardness in stainless steel 316L produced by laser powder bed fusion
Owing to the rapid cooling rates and directional thermal gradients involved, fusion-based
additive manufacturing (AM) processes yield complex, fine solidification structures that …
additive manufacturing (AM) processes yield complex, fine solidification structures that …
[HTML][HTML] Layer-wise engineering of grain orientation (LEGO) in laser powder bed fusion of stainless steel 316L
Additive manufacturing (AM) has opened new possibilities for site-specific microstructure
control of metal alloys. In laser powder bed fusion (LPBF) AM, the microstructure can be …
control of metal alloys. In laser powder bed fusion (LPBF) AM, the microstructure can be …
Understanding the impact of texture on the micromechanical anisotropy of laser powder bed fused Inconel 718
J Schröder, A Evans, E Polatidis, J Čapek… - Journal of materials …, 2022 - Springer
The manufacturability of metallic alloys using laser-based additive manufacturing methods
such as laser powder bed fusion has substantially improved within the last decade …
such as laser powder bed fusion has substantially improved within the last decade …
Investigating build orientation-induced mechanical anisotropy in additive manufacturing 316L stainless steel
Build orientation-induced mechanical anisotropy is critical for additive manufacturing metals.
To leverage the existing research on anisotropy between Z and X/Y build orientations, this …
To leverage the existing research on anisotropy between Z and X/Y build orientations, this …
Anisotropic yield surfaces of additively manufactured metals simulated with crystal plasticity
The mechanical anisotropy created by additive manufacturing (AM) is not yet fully
understood and can depend on many factors, such as powder material, manufacturing …
understood and can depend on many factors, such as powder material, manufacturing …
Mechanical performance and deformation mechanisms at cryogenic temperatures of 316L stainless steel processed by laser powder bed fusion: In situ neutron …
Manufacturing austenitic stainless steels (ASSs) using additive manufacturing is of great
interest for cryogenic applications. Here, the mechanical and microstructural responses of a …
interest for cryogenic applications. Here, the mechanical and microstructural responses of a …
[HTML][HTML] Investigation of the strengthening mechanism in 316L stainless steel produced with laser powder bed fusion
Of the many benefits of the additive manufacturing process, laser powder bed fusion (L-PBF)
has specifically been shown to produce hierarchical microstructures that circumvent the …
has specifically been shown to produce hierarchical microstructures that circumvent the …
Simultaneously enhanced strength and ductility for 3D-printed stainless steel 316L by selective laser melting
Laser-based powder-bed fusion additive manufacturing or three-dimensional printing
technology has gained tremendous attention due to its controllable, digital, and automated …
technology has gained tremendous attention due to its controllable, digital, and automated …
The interplay of local chemistry and plasticity in controlling microstructure formation during laser powder bed fusion of metals
Additive manufacturing (AM) of metallic components promises many advantages over
conventional powder or melting metallurgical manufacturing processes through high design …
conventional powder or melting metallurgical manufacturing processes through high design …
Tensile properties, strain rate sensitivity, and activation volume of additively manufactured 316L stainless steels
The tensile properties of additively manufactured (AM) metals and alloys are among the
most important variables that impact the potential applications of these materials. Here we …
most important variables that impact the potential applications of these materials. Here we …