Journal ArticleDOI
Comparison of hydrogen gas embrittlement of austenitic and ferritic stainless steels
T. P. Perng,Carl Altstetter +1 more
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TLDR
In this paper, the authors compared hydrogen-induced slow crack growth (SCG) in austenitic and ferritic stainless steels at 0 to 125 °Cand 11 to 216 kPa of hydrogen gas.Abstract:
Hydrogen-induced slow crack growth (SCG) was compared in austenitic and ferritic stainless steels at 0 to 125 °Cand 11 to 216 kPa of hydrogen gas. No SCG was observed for AISI 310, while AISI 301 was more susceptible to hydrogen embrittlement and had higher cracking velocity than AL 29-4-2 under the same test conditions. The kinetics of crack propagation was modeled in terms of the hydrogen transport in these alloys. This is a function of temperature, microstructure, and stress state in the embrittlement region. The relatively high cracking velocity of AISI 301 was shown to be controlled by the fast transport of hydrogen through the stress-induced α′ martensite at the crack tip and low escape rate of hydrogen through the γ phase in the surrounding region. Faster accumulation rates of hydrogen in the embrittlement region were expected for AISI 301, which led to higher cracking velocities. The mechanism of hydrogen-induced SCG was discussed based upon the concept of hydrogen-enhanced plasticity.read more
Citations
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Journal ArticleDOI
Hydrogen-assisted decohesion and localized plasticity in dual-phase steel
Motomichi Koyama,Motomichi Koyama,Cemal Cem Tasan,Eiji Akiyama,Kaneaki Tsuzaki,Kaneaki Tsuzaki,Dierk Raabe +6 more
TL;DR: In this article, a high-resolution scanning electron microscopy-based damage quantification technique has been employed to identify strain regimes where damage nucleation and damage growth take place, both with and without hydrogen precharging.
Journal ArticleDOI
Effect of strain-induced martensite on hydrogen environment embrittlement of sensitized austenitic stainless steels at low temperatures
TL;DR: In this paper, the effect of the strain-induced martensite, distinguished from that of the carbides, both existing along the grain boundaries in the sensitized materials, was examined.
Journal ArticleDOI
Understanding and mitigating hydrogen embrittlement of steels: a review of experimental, modelling and design progress from atomistic to continuum.
Olga Barrera,Olga Barrera,David Bombač,Yi-Sheng Chen,Thomas D. Daff,Enrique I. Galindo-Nava,Peng Gong,Daniel Haley,Robert M. Horton,Ivaylo H. Katzarov,James R. Kermode,Chiara Liverani,Miles Alexander Stopher,Francis Sweeney +13 more
TL;DR: The effect of hydrogen in steels from the atomistic to the continuum scale is described by reporting theoretical evidence supported by quantum calculation and modern experimental characterisation methods, macroscopic effects that influence the mechanical properties of Steels and established damaging mechanisms for the embrittlement of steels.
Journal ArticleDOI
Effects of hydrogen on fatigue crack growth behavior of austenitic stainless steels
Toshihiko Kanezaki,C. Narazaki,Yoji Mine,Yoji Mine,Saburo Matsuoka,Saburo Matsuoka,Yukitaka Murakami,Yukitaka Murakami +7 more
TL;DR: In this paper, the effect of hydrogen on fatigue crack growth behavior of three stainless steels has been investigated from the viewpoint of microscopic fatigue mechanisms, martensitic transformation and hydrogen content.
Journal ArticleDOI
Effects of alloy composition and strain hardening on tensile fracture of hydrogen-precharged type 316 stainless steels
TL;DR: The use of type 316 stainless steels in gaseous hydrogen infrastructure motivated the work on hydrogen-assisted fracture in this paper, where the tensile ductility of 316 stainless steel is reduced by internal hydrogen contents of 136 wppm that have been generated by thermal precharging in hydrogen gas.
References
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Journal ArticleDOI
A new model for hydrogen-assisted cracking (hydrogen “embrittlement”)
TL;DR: A new model for hydrogen-assisted cracking is presented in this article, which explains the observations of decreasing microscopic plasticity and changes of fracture modes with decreasing stress intensities at crack tips during stress-corrosion cracking and HAC of quenched-and tempered steels.
Journal ArticleDOI
Equilibrium aspects of hydrogen-induced cracking of steels
R.A. Oriani,P.H. Josephic +1 more
TL;DR: In this paper, the threshold pressures, p ∗, of hydrogen and of deuterium gases necessary to cause crack propagation in AISI 4340 steel of 250 ksi yield strength, were determined as functions of plane-strain stress intensity factor K at room temperature.
Journal ArticleDOI
Inelastic Behavior of Solids
TL;DR: In the case of the salmon, the danger of prejudicing future population studies by the artificial transfer of fish from one area to another was highlighted by the authors of the meeting as well as guidelines to future work as mentioned in this paper.
Journal ArticleDOI
Hydrogen embrittlement of metals
TL;DR: The deleterious effects of hydrogen on the tensile properties of metals are caused by the association and movement of hydrogen with dislocations as discussed by the authors, and hydrogen-dislocation interactions modify plastic deformation processes by stabilizing microcracks, by changing the work hardening rate, and by solid solution hardening.
Journal ArticleDOI
Fracture of Solids
TL;DR: The role of microscopic cracks and the departure of actual strength from theoretical values are discussed in this paper, where the type of fraction produced by various forms of stress, the dependence on the nature of the stress, and the rate of application are described.
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