R. A. Oriani scite author profile

Consideration of the relation between the cohesive energy and the surface free energy leads to the inference that dissolved hydrogen reduces the maximum cohesive resistive force of which the iron lattice is capable. This forms the basis of a mechanistic model for the velocity of hydrogen‐induced crack propagation in steels. The crack grows when the local tensile elastic stress normal to the plane of the crack equals the local maximum cohesive force per unit area as reduced by the large concentration of hydrogen drawn there by the effect of elastic stress on the chemical potential of hydrogen. The velocity of the growth is given by the solution of the relevant transport equation for the accumulation of hydrogen. Although quantifiable in principle the theory remains implicit because of current ignorance of the needed functional relationships, but some qualitative predictions and insights are possible, as well as the specification of important experiments.

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Equilibrium aspects of hydrogen-induced cracking of steels

Oriani¹,

Josephic²

1974

Acta Metallurgica

752

162

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The Thermodynamics of Stressed Solids

Li¹,

Oriani²,

Darken³

1966

474

131

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Stress generation during anodic oxidation of titanium and aluminum

1993

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R. A. Oriani

The diffusion and trapping of hydrogen in steel

Hydrogen Embrittlement of Steels

Equilibrium aspects of hydrogen-induced cracking of steels

The Thermodynamics of Stressed Solids

Stress generation during anodic oxidation of titanium and aluminum

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