Some Aspects of Microstructure Damage to Cr–Mo–V Rotor Steel as a Consequence of Extremely Long Operation

Some Aspects of Microstructure Damage to Cr–Mo–V Rotor Steel as a Consequence of Extremely Long Operation

The observed plasticity degradation of Cr–Mo–V heat resistant steel as a consequence of more than 20-year operation at 510 and 300°C is caused by an increase in microdistortions of the crystalline lattice, density of dislocations, and sizes of mosaic blocks. The greatest variation of these microstru...

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Veröffentlicht in:Technical physics letters 2018-12, Vol.44 (12), p.1069-1071
Hauptverfasser: Leksovskii, A. M., Agapov, Yu. S., Isaev, S. N., Baskin, B. L.
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic emission
Chromium
Classical and Continuum Physics
Deformation mechanisms
Dislocation density
Heat resistant steels
Microstructure
Molybdenum
Nucleation
Physics
Physics and Astronomy
Plastic deformation
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Zusammenfassung:The observed plasticity degradation of Cr–Mo–V heat resistant steel as a consequence of more than 20-year operation at 510 and 300°C is caused by an increase in microdistortions of the crystalline lattice, density of dislocations, and sizes of mosaic blocks. The greatest variation of these microstructure properties in comparison with those for the initial state was observed for material operating at 300°C. According to the data of acoustic emission in the variant of linear location with an increase in stresses of the second kind, there occurs accelerated formation of clusters, regions of local explosive plastic deformation. The clusterization should directly result in an increased probability of nucleation of an equilibrium mesocrack of millimeter range.
ISSN:1063-7850
1090-6533
DOI:10.1134/S1063785018120283