In-situ precipitation of carbides significantly enhances the hydrogen embrittlement resistance of advanced high-strength steels welded joints
This study employed the laser in-situ post-weld heat treatment process to achieve in-situ
precipitation of carbides (IPC) in the hydrogen embrittlement (HE) sensitive zone of QP980 …
precipitation of carbides (IPC) in the hydrogen embrittlement (HE) sensitive zone of QP980 …
[HTML][HTML] Influence of hydrogen on deformation and embrittlement mechanisms in a high Mn austenitic steel: In-Situ neutron diffraction and diffraction line profile …
Austenitic steels have relatively high resistance to hydrogen embrittlement and play a critical
role in hydrogen service applications. In particular, high Mn austenitic steels are considered …
role in hydrogen service applications. In particular, high Mn austenitic steels are considered …
[HTML][HTML] Plastic flow in Fe-Cr-Ni austenitic steel under the presence of solute H: A study via room temperature creep
A connection between the effects of solute hydrogen (H) on macroscopic flow stress and
microscopic dislocation mobility has been a subject for understanding the plastic flow …
microscopic dislocation mobility has been a subject for understanding the plastic flow …