Abstract
Abstract A mathematical model, based on the elasticity of isotropic materials, was formulated and used to estimate the magnitude and range of stresses caused by the growth of an oxide intrusion into the substrate metal. A model has been proposed to explain the generation of a small scale undulating oxide/metal interface based on the effect of oxidation stress and oxide cracking. Further, the effect of stress on promoting hydrogen segregation in the vacinity of oxide intrusions in zirconium alloys was examined and no agglomeration at the intrusion was predicted.
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