Change of dislocation substructures upon high-cycle fatigue of stainless steel

A. V. Gromova, Y. F. Ivanov, S. V. Vorob'ev, S. V. Konovalov, O. V. Sosnin

Research Center for Physical Materials Science and Composite Materials

Research output: Contribution to journal › Article › peer-review

Abstract

Methods of transmission electron microscopy of thin foils are used to study the evolution of dislocation substructures in Fe-0.1C-1.7Mn-0.92Ti-18.2Cr-10.4Ni-0.71Si corrosion-proof austenitic steel subject to high-cycle fatigue loading to destruction. Quantitative dependences of the dislocation substructure parameters on the number of loading cycles and distances to the sample surface are established.

Original language	English
Pages (from-to)	265-268
Number of pages	4
Journal	Russian Physics Journal
Volume	52
Issue number	3
DOIs	https://doi.org/10.1007/s11182-009-9224-5
Publication status	Published - 1 Mar 2009

Keywords

Dislocation substructures
Fatigue
Fe-0.1C-1.7Mn-0.92Ti-18.2Cr-10.4Ni-0.71Si steel

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1007/s11182-009-9224-5

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title = "Change of dislocation substructures upon high-cycle fatigue of stainless steel",

abstract = "Methods of transmission electron microscopy of thin foils are used to study the evolution of dislocation substructures in Fe-0.1C-1.7Mn-0.92Ti-18.2Cr-10.4Ni-0.71Si corrosion-proof austenitic steel subject to high-cycle fatigue loading to destruction. Quantitative dependences of the dislocation substructure parameters on the number of loading cycles and distances to the sample surface are established.",

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author = "Gromova, {A. V.} and Ivanov, {Y. F.} and Vorob'ev, {S. V.} and Konovalov, {S. V.} and Sosnin, {O. V.}",

year = "2009",

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T1 - Change of dislocation substructures upon high-cycle fatigue of stainless steel

AU - Gromova, A. V.

AU - Ivanov, Y. F.

AU - Vorob'ev, S. V.

AU - Konovalov, S. V.

AU - Sosnin, O. V.

PY - 2009/3/1

Y1 - 2009/3/1

N2 - Methods of transmission electron microscopy of thin foils are used to study the evolution of dislocation substructures in Fe-0.1C-1.7Mn-0.92Ti-18.2Cr-10.4Ni-0.71Si corrosion-proof austenitic steel subject to high-cycle fatigue loading to destruction. Quantitative dependences of the dislocation substructure parameters on the number of loading cycles and distances to the sample surface are established.

AB - Methods of transmission electron microscopy of thin foils are used to study the evolution of dislocation substructures in Fe-0.1C-1.7Mn-0.92Ti-18.2Cr-10.4Ni-0.71Si corrosion-proof austenitic steel subject to high-cycle fatigue loading to destruction. Quantitative dependences of the dislocation substructure parameters on the number of loading cycles and distances to the sample surface are established.

KW - Dislocation substructures

KW - Fatigue

KW - Fe-0.1C-1.7Mn-0.92Ti-18.2Cr-10.4Ni-0.71Si steel

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