[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 …
Investigation of the strengthening mechanism in 316L stainless steel produced with laser powder bed fusion
D Riabov, A Leicht, J Ahlström, E Hryha - Materials Science and …, 2021 - inis.iaea.org
[en] Highlights:• Strain accumulates at cell walls in as-built samples.• Heat treatment at 800
C and above removes most accumulated strain.• Cell size remains constant regardless of …
C and above removes most accumulated strain.• Cell size remains constant regardless of …
[PDF][PDF] Investigation of the strengthening mechanism in 316L stainless steel produced with laser powder bed fusion
D Riabov, A Leicht, J Ahlström - Materials Science & …, 2021 - research.chalmers.se
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 …
[引用][C] Investigation of the strengthening mechanism in 316L stainless steel produced with laser powder bed fusion
D Riabov, A Leicht, J Ahlström, E Hryha - Materials Science and …, 2021 - elibrary.ru