Micromechanical aspects of fatigue in a MIG welded aluminium airframe alloy. Part 1. Microstructural characterization
Micromechanical aspects of fatigue in a MIG welded aluminium airframe alloy. Part 1. Microstructural characterization
Fusion welding of high strength aluminium alloys is being widely considered within the commercial aircraft industry as an alternative to established mechanical fastening methods. The objective of the present article is to characterise the microstructural features of metal inert gas (MIG) welded plate of the conventional damage tolerant alloy, 2024-T351. Micromechanical aspects of the fatigue performance of this welded material are then addressed in a companion article. The general microstructure of the MIG weld was studied using optical microscopy and scanning electron microscopy, in association with electron back-scattered diffraction mapping. Columnar dendritic structures at the edge of the fusion zone are seen, with fairly uniform equiaxed dendritic grain structure dominating in the weld centre. Local microstructural conditions of the different elements of the weld have been assessed via micro-hardness and differential scanning calorimetry, identifying the balance between aging, overaging, re-solutionising and re-precipitation occurring across the weld region. Residual stress measurements by laboratory X-ray and synchrotron X-ray diffraction are also discussed, showing stress relaxation and redistribution occurring under loads representative of smooth specimen fatigue testing. The fusion zone is seen to present a tensile residual stress field, with peak longitudinal stress occurring towards the interface with the fusion zone.
aluminium alloys, welding, microstructure, hardness, residual stress
338-345
Lefebvre, F.
352c352b-3d9b-4d32-82de-142121ba7353
Ganguly, S.
7dcbbc1a-a83a-4b19-a2b8-476b57f6c6f9
Sinclair, I.
6005f6c1-f478-434e-a52d-d310c18ade0d
2005
Lefebvre, F.
352c352b-3d9b-4d32-82de-142121ba7353
Ganguly, S.
7dcbbc1a-a83a-4b19-a2b8-476b57f6c6f9
Sinclair, I.
6005f6c1-f478-434e-a52d-d310c18ade0d
Lefebvre, F., Ganguly, S. and Sinclair, I.
(2005)
Micromechanical aspects of fatigue in a MIG welded aluminium airframe alloy. Part 1. Microstructural characterization.
Materials Science and Engineering: A, 397 (1-2), .
(doi:10.1016/j.msea.2005.02.051).
Abstract
Fusion welding of high strength aluminium alloys is being widely considered within the commercial aircraft industry as an alternative to established mechanical fastening methods. The objective of the present article is to characterise the microstructural features of metal inert gas (MIG) welded plate of the conventional damage tolerant alloy, 2024-T351. Micromechanical aspects of the fatigue performance of this welded material are then addressed in a companion article. The general microstructure of the MIG weld was studied using optical microscopy and scanning electron microscopy, in association with electron back-scattered diffraction mapping. Columnar dendritic structures at the edge of the fusion zone are seen, with fairly uniform equiaxed dendritic grain structure dominating in the weld centre. Local microstructural conditions of the different elements of the weld have been assessed via micro-hardness and differential scanning calorimetry, identifying the balance between aging, overaging, re-solutionising and re-precipitation occurring across the weld region. Residual stress measurements by laboratory X-ray and synchrotron X-ray diffraction are also discussed, showing stress relaxation and redistribution occurring under loads representative of smooth specimen fatigue testing. The fusion zone is seen to present a tensile residual stress field, with peak longitudinal stress occurring towards the interface with the fusion zone.
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Published date: 2005
Keywords:
aluminium alloys, welding, microstructure, hardness, residual stress
Organisations:
Engineering Sciences
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Local EPrints ID: 23488
URI: http://eprints.soton.ac.uk/id/eprint/23488
ISSN: 0921-5093
PURE UUID: de17de63-acba-4014-9f87-c4fbdf75c612
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Date deposited: 20 Mar 2006
Last modified: 15 Mar 2024 06:47
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Author:
F. Lefebvre
Author:
S. Ganguly
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