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The fracture characteristics of a superplastic single phase copper alloy

The fracture characteristics of a superplastic single phase copper alloy
The fracture characteristics of a superplastic single phase copper alloy
A superplastic single phase copper alloy exhibits a sigmoidal relationship between strain rate and stress at 823 K, dividing the behaviour into three regions. Maximum elongation to fracture (∼380%) occurs at intermediate strain rates at the lower end of region II, and there is a decrease in total elongation at both low (region I) and high (region III) strain rates. No necking is observed in regions I and II, and there is only very slight necking in region III. Internal cavities are formed at all strain rates, but the appearance of the cavities depends critically on the imposed strain rate. At high strain rates, the cavities are small and lie in strings parallel to the tensile axis; but as the strain rate is reduced the cavities become larger, more rounded, and essentially randomly distributed. The mode of failure is ductile rupture in region III, but void growth and interlinkage become increasingly important with decreasing strain rate.
0022-2461
1084-1092
Shei, Shen-Ann
a32f9b20-4c61-4719-a63b-d59a211b55ef
Langdon, Terence G
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Shei, Shen-Ann
a32f9b20-4c61-4719-a63b-d59a211b55ef
Langdon, Terence G
86e69b4f-e16d-4830-bf8a-5a9c11f0de86

Shei, Shen-Ann and Langdon, Terence G (1978) The fracture characteristics of a superplastic single phase copper alloy. Journal of Materials Science, 13, 1084-1092. (doi:10.1007/BF00544704). (In Press)

Record type: Article

Abstract

A superplastic single phase copper alloy exhibits a sigmoidal relationship between strain rate and stress at 823 K, dividing the behaviour into three regions. Maximum elongation to fracture (∼380%) occurs at intermediate strain rates at the lower end of region II, and there is a decrease in total elongation at both low (region I) and high (region III) strain rates. No necking is observed in regions I and II, and there is only very slight necking in region III. Internal cavities are formed at all strain rates, but the appearance of the cavities depends critically on the imposed strain rate. At high strain rates, the cavities are small and lie in strings parallel to the tensile axis; but as the strain rate is reduced the cavities become larger, more rounded, and essentially randomly distributed. The mode of failure is ductile rupture in region III, but void growth and interlinkage become increasingly important with decreasing strain rate.

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More information

Accepted/In Press date: May 1978

Identifiers

Local EPrints ID: 495570
URI: http://eprints.soton.ac.uk/id/eprint/495570
DOI: doi:10.1007/BF00544704
ISSN: 0022-2461
PURE UUID: 78cabc6f-b7f2-4cb1-926a-0e48050445ff
ORCID for Terence G Langdon: ORCID iD orcid.org/0000-0003-3541-9250

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Date deposited: 18 Nov 2024 17:41
Last modified: 19 Nov 2024 02:38

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Author: Shen-Ann Shei
Author: Terence G Langdon ORCID iD

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