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Low cycle fatigue life prediction in shot-peened components of different geometries – Part I: residual stress relaxation

Low cycle fatigue life prediction in shot-peened components of different geometries – Part I: residual stress relaxation
Low cycle fatigue life prediction in shot-peened components of different geometries – Part I: residual stress relaxation
In this study, the residual stress relaxation behaviour occurring during low-cycle fatigue in shot-peened specimens with either a flat or a notched geometry has been studied. A representative low-pressure steam turbine material, FV448, was used. The residual stress and strain hardening profiles caused by shot peening were measured experimentally and were then incorporated into a finite element model. By allowing for both effects of shot peening, the residual stress relaxation behaviour was successfully simulated using this model and correlated well with the experimental data. Although more modelling work may be required to simulate the interaction between shot peening effects and external loads in a range of notched geometries, the model predictions are consistent with the specimens tested in the current study. The novelty of this study lies in the development of such a modelling approach which can be used to effectively simulate the complex interaction between shot peening effects and external loads in notched regions. Compared with the un-notched geometry, the notched geometry was found to be more effective in retaining the improvement in fatigue life resulting from shot peening, by restricting the compressive residual stress relaxation during fatigue loading.
8756-758X
761-775
You, Chao
1970d34b-ab33-4098-9363-2df30f36dda1
Achintha, Mithila
8163c322-de6d-4791-bc31-ba054cc0e07d
Soady, Katherine
683b0e6c-6cbf-463c-8d57-c0db32bc0984
Smyth, Niall
5cb2235a-9a01-4670-b783-575d0d41167d
Fitzpatrick, Michael
f0f38563-0e99-45c1-9699-e4c488d15172
Reed, Philippa
8b79d87f-3288-4167-bcfc-c1de4b93ce17
You, Chao
1970d34b-ab33-4098-9363-2df30f36dda1
Achintha, Mithila
8163c322-de6d-4791-bc31-ba054cc0e07d
Soady, Katherine
683b0e6c-6cbf-463c-8d57-c0db32bc0984
Smyth, Niall
5cb2235a-9a01-4670-b783-575d0d41167d
Fitzpatrick, Michael
f0f38563-0e99-45c1-9699-e4c488d15172
Reed, Philippa
8b79d87f-3288-4167-bcfc-c1de4b93ce17

You, Chao, Achintha, Mithila, Soady, Katherine, Smyth, Niall, Fitzpatrick, Michael and Reed, Philippa (2017) Low cycle fatigue life prediction in shot-peened components of different geometries – Part I: residual stress relaxation. Fatigue & Fracture of Engineering Materials & Structures, 40 (5), 761-775. (doi:10.1111/ffe.12543).

Record type: Article

Abstract

In this study, the residual stress relaxation behaviour occurring during low-cycle fatigue in shot-peened specimens with either a flat or a notched geometry has been studied. A representative low-pressure steam turbine material, FV448, was used. The residual stress and strain hardening profiles caused by shot peening were measured experimentally and were then incorporated into a finite element model. By allowing for both effects of shot peening, the residual stress relaxation behaviour was successfully simulated using this model and correlated well with the experimental data. Although more modelling work may be required to simulate the interaction between shot peening effects and external loads in a range of notched geometries, the model predictions are consistent with the specimens tested in the current study. The novelty of this study lies in the development of such a modelling approach which can be used to effectively simulate the complex interaction between shot peening effects and external loads in notched regions. Compared with the un-notched geometry, the notched geometry was found to be more effective in retaining the improvement in fatigue life resulting from shot peening, by restricting the compressive residual stress relaxation during fatigue loading.

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FFEMS_Part I_R1 final.pdf - Accepted Manuscript
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 28 September 2016
e-pub ahead of print date: 13 October 2016
Published date: May 2017
Related URLs:
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 401020
URI: http://eprints.soton.ac.uk/id/eprint/401020
DOI: doi:10.1111/ffe.12543
ISSN: 8756-758X
PURE UUID: 2a01f535-49a5-4332-a129-53c5cb680996
ORCID for Chao You: ORCID iD orcid.org/0000-0003-0118-0771
ORCID for Mithila Achintha: ORCID iD orcid.org/0000-0002-1732-3514
ORCID for Philippa Reed: ORCID iD orcid.org/0000-0002-2258-0347

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Date deposited: 06 Oct 2016 15:56
Last modified: 15 Mar 2024 05:56

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Contributors

Author: Chao You ORCID iD
Author: Mithila Achintha ORCID iD
Author: Katherine Soady
Author: Niall Smyth
Author: Michael Fitzpatrick
Author: Philippa Reed ORCID iD

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