Current challenges and opportunities toward understanding hydrogen embrittlement mechanisms in advanced high-strength steels: a review
Hydrogen embrittlement (HE) is one of the most dangerous yet most elusive embrittlement
problems in metallic materials. Advanced high-strength steels (AHSS) are particularly prone …
problems in metallic materials. Advanced high-strength steels (AHSS) are particularly prone …
Hydrogen embrittlement and hydrogen-induced crack initiation in additively manufactured metals: A critical review on mechanical and cyclic loading
Understanding the impact of hydrogen embrittlement (HE) on the mechanical properties of
additively manufactured (AM) metals is of utmost importance for industries utilizing these …
additively manufactured (AM) metals is of utmost importance for industries utilizing these …
Chemical heterogeneity enhances hydrogen resistance in high-strength steels
The antagonism between strength and resistance to hydrogen embrittlement in metallic
materials is an intrinsic obstacle to the design of lightweight yet reliable structural …
materials is an intrinsic obstacle to the design of lightweight yet reliable structural …
[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 …
[HTML][HTML] Hydrogen-enhanced grain boundary vacancy stockpiling causes transgranular to intergranular fracture transition
The attention to hydrogen embrittlement (HE) has been intensified recently in the light of
hydrogen as a carbon-free energy carrier. Despite worldwide research, the multifaceted HE …
hydrogen as a carbon-free energy carrier. Despite worldwide research, the multifaceted HE …
[HTML][HTML] Hydrogen-assisted fatigue crack growth: Pre-charging vs in-situ testing in gaseous environments
We investigate the implications of conducting hydrogen-assisted fatigue crack growth
experiments in a hydrogen gas environment (in-situ hydrogen charging) or in air (following …
experiments in a hydrogen gas environment (in-situ hydrogen charging) or in air (following …
[HTML][HTML] Towards a data platform for multimodal 4D mechanics of material microstructures
This paper presents advances in the data management strategy applied to 4D multimodal
mechanics of material sample microstructures. Guidelines to build a data platform allowing …
mechanics of material sample microstructures. Guidelines to build a data platform allowing …
Effects of internal hydrogen and surface-absorbed hydrogen on the hydrogen embrittlement of X80 pipeline steel
C Zhou, B Ye, Y Song, T Cui, P Xu, L Zhang - International Journal of …, 2019 - Elsevier
Abstract Effects of internal hydrogen and surface-absorbed hydrogen on hydrogen
embrittlement (HE) of X80 pipeline steel were investigated by using different strain rate …
embrittlement (HE) of X80 pipeline steel were investigated by using different strain rate …
Hydrogen, as an alloying element, enables a greater strength-ductility balance in an Fe-Cr-Ni-based, stable austenitic stainless steel
After pre-charging at the gaseous phase with a concentration of~ 7,000 at. ppm, solute
hydrogen was discovered to have an abnormal effect on both the strength and ductility …
hydrogen was discovered to have an abnormal effect on both the strength and ductility …
Enhanced hydrogen embrittlement of low-carbon steel to natural gas/hydrogen mixtures
J Shang, W Chen, J Zheng, Z Hua, L Zhang, C Zhou… - Scripta Materialia, 2020 - Elsevier
Fatigue crack growth rate (FCGR) tests were used to investigate the fatigue property of low-
carbon steel in actual natural gas/hydrogen mixtures and carbon dioxide/hydrogen/nitrogen …
carbon steel in actual natural gas/hydrogen mixtures and carbon dioxide/hydrogen/nitrogen …