Abstract

The mechanisms and kinetics of corrosion fracture of thin-wall cladding tubes of zirconium alloys in a methanol-iodine medium are determined by a direct comparison of the acoustic emission parameters with the characteristics of accumulated corrosion defects in a material during stress corrosion cracking tests. The main types of corrosion defects (nucleation, development, interaction) are revealed and quantitatively described. A general sequence of nucleation and development of corrosion defects is established for all types of tubes.

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