Journal ArticleDOI
Numerical analysis of hydrogen transport near a blunting crack tip
TLDR
In this paper, Oriani's equilibrium theory is used to relate the hydrogen in traps (micro-structural defects) to concentration in normal interstitial lattice sites (NILS), and the resulting non-linear transient hydrogen diffusion equations are integrated using a modified backward Euler method.Abstract:
T he hydrogen transport problem is studied in conjunction with large deformation elastic—plastic behavior of a material. Oriani's equilibrium theory is used to relate the hydrogen in traps (micro-structural defects) to concentration in normal interstitial lattice sites (NILS). The resulting non-linear transient hydrogen diffusion equations are integrated using a modified backward Euler method. Coupled diffusion and plastic straining is analysed with this numerical procedure in the area around a blunting crack tip. A uniform NILS concentration as dictated by Sievert's law at the pressure and temperature of interest is used as initial condition throughout the body. The crack is initially blunted by plane strain mode I (tensile) loading. The finite element results show that hydrogen residing at NILS is generally very small in comparison with the population that develops in trapping sites near the crack surface. That is, lattice diffusion delivers the hydrogen but it is predominantly the trapping that determines its distribution at temperatures of interest. The predominance of trapped hydrogen over lattice concentration prevails even in the case when hydrogen migrates under steady state conditions. Hence, the hydrostatic stress effect is less important than traps created by plastic straining as far as the creation of high total hydrogen concentration is concerned. The trapping site locations and the temperature determine the amounts and locations of high hydrogen concentrations. Consequently, ahead of a blunting crack tip, the total hydrogen concentration and plastic strain diminish with distance from the crack tip whereas the hydrostatic stress rises. This would seem to have significant consequences for fractures induced by the presence of hydrogen.read more
Citations
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Journal ArticleDOI
Hydrogen related failure of steels – a new aspect
TL;DR: In this paper, the role of hydrogen in reducing ductile crack growth resistance is attributed to the increased creation of vacancies on straining, which is supported by a recent finding of amorphisation associated with crack growth.
Journal ArticleDOI
A statistical, physical-based, micro-mechanical model of hydrogen-induced intergranular fracture in steel
TL;DR: In this paper, the authors present a comprehensive physical-based statistical micro-mechanical model of hydrogen embrittlement which they use to quantitatively predict the degradation in fracture strength of a high-strength steel with increasing hydrogen concentration, with the predictions verified by experiment.
Journal ArticleDOI
Effect of hydrogen on the fracture behavior of high strength steel during slow strain rate test
TL;DR: In this paper, the effect of hydrogen on the fracture behavior of quenched and tempered AISI 4135 steel at 1450 MPa was investigated by means of slow strain rate tests on smooth and circumferentially-notched round-bar specimens.
Journal ArticleDOI
Hydrogen transport near a blunting crack tip
TL;DR: In this paper, a modified hydrogen transport model was used to simulate the effect of the hydrostatic stress and trapping on the hydrogen distribution in a plastically deforming steel, where hydrogen atoms diffuse through lattice sites and trap sites are filled by lattice diffusion.
Journal ArticleDOI
Hydrogen Thermal Desorption Relevant to Delayed-Fracture Susceptibility of High-Strength Steels
TL;DR: In this paper, the authors examined the susceptibility to hydrogen embrittlement of martensitic steels by means of a delayed-fracture test and hydrogen thermal desorption analysis.
References
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Journal ArticleDOI
An HVEM study of hydrogen effects on the deformation and fracture of nickel
Ian M. Robertson,H.K. Birnbaum +1 more
TL;DR: In this article, the authors investigated the mechanisms of hydrogen "embrittlement" of nickel by performing in situ straining experiments in a highvoltage electron microscope equipped with an environmental cell.
Journal ArticleDOI
Direct observations of the effect of hydrogen on the behavior of dislocations in iron
T. Tabata,H.K. Birnbaum +1 more
Journal ArticleDOI
Equilibrium and kinetic studies of the hydrogen-assisted cracking of steel
R.A. Oriani,P.H. Josephic +1 more
TL;DR: In this paper, the decohesion theory was elaborated to incorporate a K -dependence of the effective crack-tip radius, ρ, and the physical quantities derived from fitting the decochesion model to the p ∗ (K) data are in qualitative agreement with the premises of the deccohesion theory, and theory also permits the understanding of the hysteresis due to unloading.
Journal ArticleDOI
The effect of hydrogen on the mechanical properties of high purity iron I. Softening and hardening of high purity iron by hydrogen charging during tensile deformation
TL;DR: In this paper, the softening and hardening observed in the high purity specimens are interpreted as the results of hydrogen-dislocation interactions; it is proposed that hydrogen atoms trapped at the core of a screw dislocation increase its mobility and that hydrogen atom hinder the motion of edge dislocations at sufficiently low temperatures.