[HTML][HTML] Hydrogen trap** and embrittlement in metals–A review
Hydrogen embrittlement in metals (HE) is a serious challenge for the use of high strength
materials in engineering practice and a major barrier to the use of hydrogen for global …
materials in engineering practice and a major barrier to the use of hydrogen for global …
Atomic-scale investigation of deep hydrogen trap** in NbC/α-Fe semi-coherent interfaces
The precipitation of niobium carbide (NbC) is a superior approach to mitigating hydrogen
embrittlement (HE). The role of the semi-coherent interface between NbC and α-Fe on …
embrittlement (HE). The role of the semi-coherent interface between NbC and α-Fe on …
Machine learning assisted design of FeCoNiCrMn high-entropy alloys with ultra-low hydrogen diffusion coefficients
The broad compositional space of high entropy alloys (HEA) is conducive to the design of
HEAs with targeted performance. Herein, a data-driven and machine learning (ML) assisted …
HEAs with targeted performance. Herein, a data-driven and machine learning (ML) assisted …
[HTML][HTML] Recent progress in analysis of strain-induced phenomena in irradiated metallic materials and advanced alloys using SEM-EBSD in-situ tensile testing
In-situ mechanical testing in a scanning electron microscope (SEM) equipped with an
electron backscatter diffraction (EBSD) system has quickly gained popularity, particularly …
electron backscatter diffraction (EBSD) system has quickly gained popularity, particularly …
Hydrogen trap** and desorption affected by ferrite grain boundary types in shielded metal and flux-cored arc weldments with Ni addition
Hydrogen trap** behavior and diffusion induced by the microstructure of shielded metal
and flux-cored arc weldments (SMAW and FCAW) were characterized using a combination …
and flux-cored arc weldments (SMAW and FCAW) were characterized using a combination …
Optimizing the hydrogen embrittlement resistance by tuning the structures of Cu-rich nanoprecipitates in high strength martensite stainless steels
Hydrogen is notoriously known to embrittle high-strength steels, critically endangering the
materials service safety. Cu-rich nanoprecipitates can mitigate the hydrogen embrittlement …
materials service safety. Cu-rich nanoprecipitates can mitigate the hydrogen embrittlement …
Research on hydrogen embrittlement behavior of L-PBF 18Ni (300) maraging steel by experiments and numerical simulations
Affected by complex microstructural evolution, dominant factors in hydrogen embrittlement
(HE) of maraging steels in different aging states were not clear. This fundamental issue was …
(HE) of maraging steels in different aging states were not clear. This fundamental issue was …
Analysis of hydrogen-induced delayed cracking and hydrogen trap** behavior in plastically deformed quenching and partitioning steel
Plastic deformation is an important factor affecting the critical condition of hydrogen-induced
delayed cracking (HIDC) of quenching and partitioning (Q&P) steels. The study established …
delayed cracking (HIDC) of quenching and partitioning (Q&P) steels. The study established …
Inhibition of grain growth by pearlite improves hydrogen embrittlement susceptibility of the ultra-low carbon ferritic steel: the influence of H-assisted crack initiation and …
The influence of grain growth inhibition by pearlite on hydrogen embrittlement (HE) behavior
of ultra-low carbon ferritic steels was studied. The Fe-0.02 C alloy has a considerable …
of ultra-low carbon ferritic steels was studied. The Fe-0.02 C alloy has a considerable …
Unraveling the effect of dislocations and deformation-induced boundaries on environmental hydrogen embrittlement behavior of a cold-rolled Al–Zn–Mg–Cu alloy
The effect of dislocation substructure, and deformation-induced boundaries on the hydrogen
embrittlement (HE) behavior and the fracture mechanism of a 7xxx series aluminum alloy …
embrittlement (HE) behavior and the fracture mechanism of a 7xxx series aluminum alloy …