The cellular boundary with high density of dislocations governed the strengthening mechanism in selective laser melted 316L stainless steel
Y Hong, C Zhou, Y Zheng, L Zhang, J Zheng - Materials Science and …, 2021 - Elsevier
The cellular sub-grain was widely reported as the main contributor to the high yield strength
of selective laser melted stainless steels, but its underlying strengthening mechanism was …
of selective laser melted stainless steels, but its underlying strengthening mechanism was …
[PDF][PDF] The cellular boundary with high density of dislocations governed the strengthening mechanism in selective laser melted 316L stainless steel
Y Hong, C Zhou, Y Zheng, L Zhang… - Materials Science & …, 2021 - researchgate.net
The cellular sub-grain was widely reported as the main contributor to the high yield strength
of selective laser melted stainless steels, but its underlying strengthening mechanism was …
of selective laser melted stainless steels, but its underlying strengthening mechanism was …
The cellular boundary with high density of dislocations governed the strengthening mechanism in selective laser melted 316L stainless steel
Y Hong, C Zhou, Y Zheng, L Zhang… - Materials Science and …, 2021 - inis.iaea.org
[en] The cellular sub-grain was widely reported as the main contributor to the high yield
strength of selective laser melted stainless steels, but its underlying strengthening …
strength of selective laser melted stainless steels, but its underlying strengthening …