Mapping residual strain induced by cold working and by laser shock peening using neutron transmission spectroscopy
Mapping residual strain induced by cold working and by laser shock peening using neutron transmission spectroscopy
This paper presents 2D mapping of residual strains, induced by cold expansion and laser shock peening processing of aluminium alloy samples, by using Bragg edge neutron transmission. Neutron transmission uses information contained in the neutron beam transmitted through a sample. It is shown that neutron transmission strain mapping with high spatial resolution can provide important insights into the distribution of residual strains associated with processing of materials. The residual strain field around a cold-expanded hole can be revealed in detail, as can be the residual strain profile associated with laser peening. Results are correlated with measurements obtained by conventional neutron diffraction and incremental hole drilling. The residual strain variation around the cold-expanded hole and the depth of compressive residual strain generated by the peening process were captured with high spatial resolution, showing the advantages of neutron transmission over other well-established strain measurement methods by non-destructively generating a map of residual strains over a large area.
56-64
Ramadhan, Ranggi S.
d654ffc4-149f-4055-a4e6-56e591583f2e
Syed, Abdul K.
53aa5d2e-9597-4955-85f7-81b98b05169c
Tremsin, Anton S.
9396dad9-1a4d-4845-9881-7bb7ddaa07fc
Kockelmann, Winfried
8dccfbf3-0bb4-46ed-ba2c-1a13ec28b51b
Dalgliesh, Robert
e32d6c1f-bec2-400c-a9b4-29fa0975ecb6
Chen, Bo
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Parfitt, David
7306c9fa-66ea-4f1a-b755-d2adab38f3ee
Fitzpatrick, Michael E.
b926f6e7-c189-4ad6-8a63-b783ebc4423d
4 February 2018
Ramadhan, Ranggi S.
d654ffc4-149f-4055-a4e6-56e591583f2e
Syed, Abdul K.
53aa5d2e-9597-4955-85f7-81b98b05169c
Tremsin, Anton S.
9396dad9-1a4d-4845-9881-7bb7ddaa07fc
Kockelmann, Winfried
8dccfbf3-0bb4-46ed-ba2c-1a13ec28b51b
Dalgliesh, Robert
e32d6c1f-bec2-400c-a9b4-29fa0975ecb6
Chen, Bo
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Parfitt, David
7306c9fa-66ea-4f1a-b755-d2adab38f3ee
Fitzpatrick, Michael E.
b926f6e7-c189-4ad6-8a63-b783ebc4423d
Ramadhan, Ranggi S., Syed, Abdul K. and Tremsin, Anton S.
,
et al.
(2018)
Mapping residual strain induced by cold working and by laser shock peening using neutron transmission spectroscopy.
Materials & Design, 143, .
(doi:10.1016/j.matdes.2018.01.054).
Abstract
This paper presents 2D mapping of residual strains, induced by cold expansion and laser shock peening processing of aluminium alloy samples, by using Bragg edge neutron transmission. Neutron transmission uses information contained in the neutron beam transmitted through a sample. It is shown that neutron transmission strain mapping with high spatial resolution can provide important insights into the distribution of residual strains associated with processing of materials. The residual strain field around a cold-expanded hole can be revealed in detail, as can be the residual strain profile associated with laser peening. Results are correlated with measurements obtained by conventional neutron diffraction and incremental hole drilling. The residual strain variation around the cold-expanded hole and the depth of compressive residual strain generated by the peening process were captured with high spatial resolution, showing the advantages of neutron transmission over other well-established strain measurement methods by non-destructively generating a map of residual strains over a large area.
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Accepted/In Press date: 26 January 2018
e-pub ahead of print date: 31 January 2018
Published date: 4 February 2018
Identifiers
Local EPrints ID: 489946
URI: http://eprints.soton.ac.uk/id/eprint/489946
ISSN: 0261-3069
PURE UUID: 2679e8dd-2de0-4865-9b40-7e2ee0c116d6
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Date deposited: 08 May 2024 16:30
Last modified: 09 May 2024 04:01
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Contributors
Author:
Ranggi S. Ramadhan
Author:
Abdul K. Syed
Author:
Anton S. Tremsin
Author:
Winfried Kockelmann
Author:
Robert Dalgliesh
Author:
Bo Chen
Author:
David Parfitt
Author:
Michael E. Fitzpatrick
Corporate Author: et al.
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