Residual stress generation during laser cladding of steel with a particulate metal matrix composite
Residual stress generation during laser cladding of steel with a particulate metal matrix composite
Laser cladding is used to coat and repair the surface of various components. A significant issue relating to optimisation of the process is the generation of residual stresses. These are affected by the high thermal gradients inherent in the process, and associated differential thermal contraction. These stresses can lead to various types of distortion. A customised 3-D finite element model has been developed, incorporating these effects, based on simulation of conductive, convective and radiative heat transfer, and assuming elastic-perfectly plastic deformation behaviour. Creep effects have been neglected and the cladding (particulate metal matrix composite) has been treated as a continuum. Comparisons are presented between measured and simulated thermal fields and specimen deflection histories. The results indicate that the main features of residual stress generation in this type of system have been captured in the model. Implications for process optimization and control are briefly discussed.
619-624
Plati, A.
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Tan, J.C.
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Golosnoy, I.O.
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Persoons, R.
c90154b5-74c4-4b6c-a366-0dd6cd10fe78
van Acker, K.
fce21594-05b6-45f0-8ee5-e56ddad92751
Clyne, T.W.
00678bf7-17de-46e8-9b35-bf1ca73bce9b
July 2006
Plati, A.
3d022a89-5bca-4757-9598-7a59db87421c
Tan, J.C.
64748a9f-f771-44c3-ac63-fd554193c592
Golosnoy, I.O.
40603f91-7488-49ea-830f-24dd930573d1
Persoons, R.
c90154b5-74c4-4b6c-a366-0dd6cd10fe78
van Acker, K.
fce21594-05b6-45f0-8ee5-e56ddad92751
Clyne, T.W.
00678bf7-17de-46e8-9b35-bf1ca73bce9b
Plati, A., Tan, J.C., Golosnoy, I.O., Persoons, R., van Acker, K. and Clyne, T.W.
(2006)
Residual stress generation during laser cladding of steel with a particulate metal matrix composite.
Advanced Engineering Materials, 8 (7), .
(doi:10.1002/adem.200600063).
Abstract
Laser cladding is used to coat and repair the surface of various components. A significant issue relating to optimisation of the process is the generation of residual stresses. These are affected by the high thermal gradients inherent in the process, and associated differential thermal contraction. These stresses can lead to various types of distortion. A customised 3-D finite element model has been developed, incorporating these effects, based on simulation of conductive, convective and radiative heat transfer, and assuming elastic-perfectly plastic deformation behaviour. Creep effects have been neglected and the cladding (particulate metal matrix composite) has been treated as a continuum. Comparisons are presented between measured and simulated thermal fields and specimen deflection histories. The results indicate that the main features of residual stress generation in this type of system have been captured in the model. Implications for process optimization and control are briefly discussed.
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Published date: July 2006
Organisations:
EEE
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Local EPrints ID: 264609
URI: http://eprints.soton.ac.uk/id/eprint/264609
ISSN: 1438-1656
PURE UUID: f48762b4-fcd9-43e6-b1a1-58d45888fdd2
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Date deposited: 02 Oct 2007
Last modified: 14 Mar 2024 07:53
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Author:
A. Plati
Author:
J.C. Tan
Author:
I.O. Golosnoy
Author:
R. Persoons
Author:
K. van Acker
Author:
T.W. Clyne
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