Abstract

The present work is devoted to temperature dependences of the internal friction of plastically deformed high-alloy ferritic and austenitic steels with different carbon contents and comparable atomic proportions of dissolved interstitial atoms. The effects of composition, carbon content, degree of plastic strain, and aging temperature and time on the relaxation parameters are investigated. A mechanism for the formation of the spectrum of internal friction in strained steels allowing for the migration of atoms into regions of the crystal lattice activated by the presence of “fresh” dislocations is suggested.

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