Analysis of large dislocation populations in deformed metals

N. Hansen; D.A. Hughes

doi:10.1002/pssa.2211490111

Analysis of large dislocation populations in deformed metals

Authors:

Hansen, N. ;
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Risø National Laboratory for Sustainable Energy, Technical University of Denmark
Hughes, D.A.
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unknown

DOI:

10.1002/pssa.2211490111

Abstract:

The microstructural evolution is followed in pure aluminium and nickel cold-rolled over a large strain range. A number of dislocation configurations are characterized and classified and it is found that dislocation rotation boundaries are the dominant feature which subdivide the grains on a finer and finer scale as the strain is increased. These configurations of dislocation boundaries are analyzed on the basis of the LEDS hypothesis for dislocation structures and agreement is found. The strengthening effect of dislocation boundaries is discussed and equations are suggested for the relationship between now stress and microstructural parameters.

Type:

Journal article

Language:

English

Published in:

Physica Status Solidi. A: Applications and Materials Science (print), 1995, Vol 149, Issue 1, p. 155-172

Keywords:

Strukturelle materialer

Main Research Area:

Science/technology

Publication Status:

Published

Review type:

Undetermined

Submission year:

1995

Scientific Level:

Scientific

ID:

2185784398

Analysis of large dislocation populations in deformed metals

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