Hydrogen Trapping by Irradiation-Induced Defects in 316L Stainless Steel

“…Since it is lower than 60 kJ/mol, both hydrogen traps of CR 316L SS are reversible. According to the literature, the second trap can be ascribed either to the interstitial diffusion of hydrogen atoms within the γ-matrix (Ea ~ 40 kJ/mol [32,47,50]), or to γ grain boundaries (Ea ~ 37-43 kJ/mol [28,29,39,51]).…”

“…Therefore, for a better understanding of the behavior of the material in a hydrogen environment, it is important to study the characteristics of hydrogen traps. While there are numerous studies regarding hydrogen trapping in conventionally produced ASS [28][29][30][31][32], to the best of our knowledge, there is a lack of information on this issue about L-PBF ASS.…”

Hydrogen Trapping in Laser Powder Bed Fusion 316L Stainless Steel

“…Since it is lower than 60 kJ/mol, both hydrogen traps of CR 316L SS are reversible. According to the literature, the second trap can be ascribed either to the interstitial diffusion of hydrogen atoms within the γ-matrix (Ea ~ 40 kJ/mol [32,47,50]), or to γ grain boundaries (Ea ~ 37-43 kJ/mol [28,29,39,51]).…”

“…Therefore, for a better understanding of the behavior of the material in a hydrogen environment, it is important to study the characteristics of hydrogen traps. While there are numerous studies regarding hydrogen trapping in conventionally produced ASS [28][29][30][31][32], to the best of our knowledge, there is a lack of information on this issue about L-PBF ASS.…”

Hydrogen Trapping in Laser Powder Bed Fusion 316L Stainless Steel