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Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques

Whilst the structural integrity and lifetime considerations in welded joints for blanket modules can be predicted using finite element software, it is essential to prove the validity of these simulations. This paper provides detailed analysis for the first time, of the residual stress state in a las...

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Autores principales: Hughes, D J, Koukovini-Platia, E, Heeley, E L
Lenguaje:eng
Publicado: 2014
Materias:
XX
Acceso en línea:https://dx.doi.org/10.1016/j.fusengdes.2013.12.041
http://cds.cern.ch/record/2119190
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author Hughes, D J
Koukovini-Platia, E
Heeley, E L
author_facet Hughes, D J
Koukovini-Platia, E
Heeley, E L
author_sort Hughes, D J
collection CERN
description Whilst the structural integrity and lifetime considerations in welded joints for blanket modules can be predicted using finite element software, it is essential to prove the validity of these simulations. This paper provides detailed analysis for the first time, of the residual stress state in a laser-welded sample with integral cooling channels. State-of-the-art non-destructive neutron diffraction was employed to determine the triaxial stress state and to understand microstructural changes around the heat affected zone. Synchrotron X-ray diffraction was used to probe the variation of strain-free lattice reference parameter around the weld zone allowing correction of the neutron measurements. This paper details an important experimental route to validation of predicted stresses in complex safety-critical reactor components for future applications.
id cern-2119190
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2014
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spelling cern-21191902019-09-30T06:29:59Zdoi:10.1016/j.fusengdes.2013.12.041http://cds.cern.ch/record/2119190engHughes, D JKoukovini-Platia, EHeeley, E LResidual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniquesXXWhilst the structural integrity and lifetime considerations in welded joints for blanket modules can be predicted using finite element software, it is essential to prove the validity of these simulations. This paper provides detailed analysis for the first time, of the residual stress state in a laser-welded sample with integral cooling channels. State-of-the-art non-destructive neutron diffraction was employed to determine the triaxial stress state and to understand microstructural changes around the heat affected zone. Synchrotron X-ray diffraction was used to probe the variation of strain-free lattice reference parameter around the weld zone allowing correction of the neutron measurements. This paper details an important experimental route to validation of predicted stresses in complex safety-critical reactor components for future applications.oai:cds.cern.ch:21191902014
spellingShingle XX
Hughes, D J
Koukovini-Platia, E
Heeley, E L
Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques
title Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques
title_full Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques
title_fullStr Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques
title_full_unstemmed Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques
title_short Residual stress in a laser welded EUROFER blanket module assembly using non-destructive neutron diffraction techniques
title_sort residual stress in a laser welded eurofer blanket module assembly using non-destructive neutron diffraction techniques
topic XX
url https://dx.doi.org/10.1016/j.fusengdes.2013.12.041
http://cds.cern.ch/record/2119190
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AT koukoviniplatiae residualstressinalaserweldedeuroferblanketmoduleassemblyusingnondestructiveneutrondiffractiontechniques
AT heeleyel residualstressinalaserweldedeuroferblanketmoduleassemblyusingnondestructiveneutrondiffractiontechniques