Numerical simulation of residual stresses induced by weld repair in a stainless steel pipe considering the influence of an initial fabrication weld

Salerno, Gervasio; Bennett, Chris; Sun, Wei; Becker, Adib A.

Numerical simulation of residual stresses induced by weld repair in a stainless steel pipe considering the influence of an initial fabrication weld

Salerno, Gervasio; Bennett, Chris; Sun, Wei; Becker, Adib A.

Authors

Gervasio Salerno

CHRIS BENNETT C.Bennett@nottingham.ac.uk
Professor of Solid Mechanics

Wei Sun

Adib A. Becker

Abstract

This work presents the application of a finite element (FE) model developed to simulate the repair process in the case of components with a pre-existing stress state. The approach is tested in the case of a repair of a laser beam weld in a stainless steel pipe with the region of repair located in the heat affected zone of the original weld. The area of the repair is removed and refilled testing different approaches in terms of the number, and direction of the repair passes. The comparison between the refilling procedures is presented with the aim of evaluating the effects on the final residual stress distribution.

Citation

Salerno, G., Bennett, C., Sun, W., & Becker, A. A. (in press). Numerical simulation of residual stresses induced by weld repair in a stainless steel pipe considering the influence of an initial fabrication weld. . Manuscript submitted for publication

Conference Name	10th International Conference on Residual Stresses (ICRS-10)
End Date	Jul 7, 2016
Acceptance Date	Jul 1, 2016
Deposit Date	Jul 6, 2016
Peer Reviewed	Peer Reviewed
Keywords	Finite element modelling, Weld Repair, Residual stress
Public URL	https://nottingham-repository.worktribe.com/output/792333
Related Public URLs	http://www.ansto.gov.au/Events/ICRS2016/index.htm