Observation of the Hydrogen-Dislocation Interactions in a High-Manganese Steel after Hydrogen Adsorption and Desorption

Abstract: Hydrogen embrittlement (HE) poses a significant challenge for the development of high-strength metallic materials. However, explanations for the observed HE phenomena are still under debate. To shed light on this issue, here we investigated the hydrogen-defect interaction by comparing the dislocation structure evolution after hydrogen adsorption and desorption in a Fe-28Mn-0.3C (wt%) twinning-induced plasticity steel with an austenitic structure using in situ electron channeling contrast imaging. The results i… Show more

“…Another important factor for triggering SSC failure is residual stress [33][34][35], which is closely related to the plastic deformation accompanied by phase transformation. A Kernel average misorientation (KAM) map of the EBSD that reveals local misorientation and the strain energy may be used to estimate the stress distribution [36][37][38].…”

Simultaneous Enhancement of Strength and Sulfide Stress Cracking Resistance of Hot-Rolled Pressure Vessel Steel Q345 via a Quenching and Tempering Treatment

“…Another important factor for triggering SSC failure is residual stress [33][34][35], which is closely related to the plastic deformation accompanied by phase transformation. A Kernel average misorientation (KAM) map of the EBSD that reveals local misorientation and the strain energy may be used to estimate the stress distribution [36][37][38].…”

Simultaneous Enhancement of Strength and Sulfide Stress Cracking Resistance of Hot-Rolled Pressure Vessel Steel Q345 via a Quenching and Tempering Treatment

Hardening effect of diffusible hydrogen on BCC Fe-based model alloys by in situ backside hydrogen charging