Journal ArticleDOI
A new model for hydrogen-assisted cracking (hydrogen “embrittlement”)
TLDR
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.Abstract:
A new model is presented for hydrogen-assisted cracking (HAC) 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 The model suggests that the presence of sufficiently concentrated hydrogen dissolved in the lattice just ahead of the crack tip aids whatever deformation processes the microstructure will allow Intergranular, quasicleavage, or microvoid coalescence fracture modes operate depending upon the microstructure, the crack-tip stress intensity, and the concentration of hydrogen The model unifies several theories but shows how the stress-sorption and lattice embrittlement models are unnecessary The model shows that planar pressure effects are necessary at low stress intensities and are necessary only to augment the driving force from the applied loads The basic hydrogen-steel interaction appears to be an easing of dislocation motion or generation, or bothread more
Citations
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A continuum model for void nucleation by inclusion debonding
TL;DR: In this article, a boundary value problem simulating a periodic array of rigid spherical inclusions in an isotropically hardening elastic-viscoplastic matrix is analyzed and the effect of the triaxiality of the imposed stress state on nucleation is studied and the numerical results are related to the description of void nucleation within a phenomenological constitutive framework.
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Effects of hydrogen on the properties of iron and steel
TL;DR: In this paper, the effects of hydrogen on the physical and mechanical properties of iron and steel are reviewed and a new mechanism for the cold work peak for hydrogen in iron is considered.
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Hydrogen-enhanced localized plasticity—a mechanism for hydrogen-related fracture
TL;DR: In this article, a theory of hydrogen shielding of the interaction of dislocations with elastic stress centres is outlined, which can account for the observed hydrogen-enhanced dislocation mobility.
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Steels for bearings
TL;DR: In this paper, the structure and properties of bearing steels prior to the point of service are first assessed and described in the context of steelmaking, manufacturing and engineering requirements, followed by a thorough critique of the damage mechanisms that operate during service and in accelerated tests.
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Environmentally Assisted Cracking: Overview of Evidence for an Adsorption-Induced Localised-Slip Process,
TL;DR: In this paper, it was shown that hydrogen-assisted cracking occurs because adsorption facilitates the injection of dislocations from crack tips and thereby promotes the coalescence of cracks with voids ahead of cracks.
References
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Journal ArticleDOI
Delayed Fracture of Metals under Static Load
N. J. Petch,P. Stables +1 more
TL;DR: In the case of glass fracture, Orowan et al. as discussed by the authors explained it as gas adsorption on the Griffith crack surface and discussed a similar theory with Gurney and Pearson.
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