Finite element analysis of a welded cruciform joint
Finite element analysis of a welded cruciform joint
The behaviour of a welded cruciform joint under static loads was simulated using the finite element method (FEM). The geometry, material properties and loading conditions of the joint were identical to those of a specimen for which experimental results were available so that the FEM model could be validated. The effects of varying weld geometry and material properties on the developing strain and stress distributions were studied using the validated model.
17-18
Wu, A.
40de6b61-2aa3-4138-8d1d-6f24d8a8bbda
Mellor, B.G.
2b13b80f-880b-49ac-82fe-827a15dde2fe
Syngellakis, S.
1279f4e2-97ec-44dc-b4c2-28f5ac9c2f88
2000
Wu, A.
40de6b61-2aa3-4138-8d1d-6f24d8a8bbda
Mellor, B.G.
2b13b80f-880b-49ac-82fe-827a15dde2fe
Syngellakis, S.
1279f4e2-97ec-44dc-b4c2-28f5ac9c2f88
Wu, A., Mellor, B.G. and Syngellakis, S.
(2000)
Finite element analysis of a welded cruciform joint.
Proceedings of the 6th Postgraduate Conference in Engineering Materials, Southampton, UK.
06 Oct 2000.
.
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Conference or Workshop Item
(Paper)
Abstract
The behaviour of a welded cruciform joint under static loads was simulated using the finite element method (FEM). The geometry, material properties and loading conditions of the joint were identical to those of a specimen for which experimental results were available so that the FEM model could be validated. The effects of varying weld geometry and material properties on the developing strain and stress distributions were studied using the validated model.
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wu_00.pdf
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Published date: 2000
Venue - Dates:
Proceedings of the 6th Postgraduate Conference in Engineering Materials, Southampton, UK, 2000-10-06 - 2000-10-06
Identifiers
Local EPrints ID: 21410
URI: http://eprints.soton.ac.uk/id/eprint/21410
PURE UUID: 77354035-5b14-4946-8f39-d9a3faaac6f1
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Date deposited: 22 Feb 2007
Last modified: 15 Mar 2024 06:30
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Contributors
Author:
A. Wu
Author:
B.G. Mellor
Author:
S. Syngellakis
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