Ys. Kim et al., A model of the threshold stress intensity factor, K-IH, for delayed hydride cracking of Zr-2.5Nb, J NUCL MAT, 278(2-3), 2000, pp. 251-257
An analytical model to predict a threshold stress intensity factor, K-IH, f
or delayed hydride cracking of Zr-2.5Nb alloy was developed based on a crit
erion to fracture hydrides: sigma(max)(A)(r(c)) + sigma(h)(r(c)) = sigma(f)
(h). The hydride platelet is assumed to cover a process zone ahead of the c
rack tip. By using the cohesive zone model and von Mises yield criterion at
the boundary of the cohesive zone, the cohesive stress and the cohesive zo
ne length (or the process zone length) were determined. The maximum stress
and a critical distance in the process zone, corresponding to its occurrenc
e, were obtained by assuming an elastic and linearly plastic materials with
a constant tangent modulus, E-t. The feasibility of the developed K-IH mod
el was discussed by comparing the predicted K-IH With the measured one by a
ccounting for a temperature dependence of K-IH (C) 2000 Elsevier Science B.
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