The synergistic action and interplay of hydrogen embrittlement mechanisms in steels and iron: Localized plasticity and decohesion
Component failures due to the hydrogen embrittlement (HE) were observed in different
industrial systems, including high-pressure hydrogen storage tanks, aircraft components …
industrial systems, including high-pressure hydrogen storage tanks, aircraft components …
Hydrogen damage of steels: A case study and hydrogen embrittlement model
Many efforts have been made to understand the effects of hydrogen on steels, resulting in an
abundance of theoretical models and papers. However, a fully developed and practically …
abundance of theoretical models and papers. However, a fully developed and practically …
Hydrogen embrittlement of industrial components: prediction, prevention, and models
Hydrogen embrittlement is a common, dangerous, and poorly understood cause of failure in
many metal alloys. In practice, it is observed that different types of damage to industrial …
many metal alloys. In practice, it is observed that different types of damage to industrial …
First-principles study on the interaction of H interstitials with grain boundaries in - and -Fe
The presence of hydrogen may weaken the bonding of iron atoms at grain boundaries,
leading to intergranular embrittlement and thus failure of the bulk material. In this paper, we …
leading to intergranular embrittlement and thus failure of the bulk material. In this paper, we …
Hydrogen embrittlement fracture mechanism of 430 ferritic stainless steel: The significant role of carbides and dislocations
T Wang, H Zhang, W Liang - Materials Science and Engineering: A, 2022 - Elsevier
The effect of electrochemical hydrogen charging on the mechanical properties and the
fracture mechanism of AISI430 ferritic stainless steel were studied by tensile test …
fracture mechanism of AISI430 ferritic stainless steel were studied by tensile test …
Resolving the hydrogen effect on dislocation nucleation and mobility by electrochemical nanoindentation
A Barnoush, M Asgari, R Johnsen - Scripta Materialia, 2012 - Elsevier
Electrochemical nanoindentation is used to study the in situ effect of electrochemically
charged hydrogen on the mechanical properties of austenitic stainless steel (ASS). In …
charged hydrogen on the mechanical properties of austenitic stainless steel (ASS). In …
Interfacial investigation of explosion-welded titanium/steel bimetallic plates
Q Chu, X Tong, S Xu, M Zhang, J Li, FX Yan… - Journal of Materials …, 2020 - Springer
Commercial pure titanium and low carbon steel were explosive welded. The interfacial
structures were examined using a combined microstructural analysis and nanoindentation …
structures were examined using a combined microstructural analysis and nanoindentation …
Microstructure-property relationship for AISI 304/308L stainless steel laser weldment
Laser welding is attractive for numerous applications requiring materials joining, due to its
low energy input. However, it is unknown how the laser welding process influences the …
low energy input. However, it is unknown how the laser welding process influences the …
Ab initio study of the solubility and kinetics of hydrogen in austenitic high Mn steels
L Ismer, T Hickel, J Neugebauer - Physical Review B—Condensed Matter and …, 2010 - APS
Chemical trends for the solubility and diffusivity of hydrogen in austenitic high Mn steels
have been studied employing density-functional theory. Considering the dilute limit of …
have been studied employing density-functional theory. Considering the dilute limit of …
Charpy impact properties of hydrogen-exposed 316L stainless steel at ambient and cryogenic temperatures
LTH Nguyen, JS Hwang, MS Kim, JH Kim, SK Kim… - Metals, 2019 - mdpi.com
316L stainless steel is a promising material candidate for a hydrogen containment system.
However, when in contact with hydrogen, the material could be degraded by hydrogen …
However, when in contact with hydrogen, the material could be degraded by hydrogen …