Laser shock processing (LSP), also known as laser peening (LP), proves to be superior to conventional surface treatments such as shot peening, including deeper penetration of the residual stresses. The LSP treatment, which uses a very short pulse (ns) of intense (GW cm−2) laser beam to generate compressive residual stresses near the surface of the metallic samples, demonstrates a significant improvement of fatigue life and stress corrosion cracking resistance. In this paper, finite element analysis (FEA) combined with particle swarm optimization (PSO) method to predict the magnitude and distribution of optimized multiple LSP impacts on 304 stainless steel. The results of the simulation clearly show that optimized multiple LSP can mitigate residual stresses loss in the centre of the single impact zone and generate homogeneous compressive residual stresses at the surface. The results also reveal the optimized multiple LSP can lead to deeper penetration of the compressive residual stresses in the samples.
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ASME 2013 Pressure Vessels and Piping Conference
July 14–18, 2013
Paris, France
Conference Sponsors:
- Pressure Vessels and Piping Division
- Nondestructive Evaluation Engineering Division
ISBN:
978-0-7918-5570-6
PROCEEDINGS PAPER
Optimization of Residual Stresses Induced by Multiple Laser Shock Processing
Xinlong Wei,
Xinlong Wei
Nanjing University of Technology, Nanjing, China
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Jianxin Zhou,
Jianxin Zhou
Nanjing University of Technology, Nanjing, China
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Xiang Ling
Xiang Ling
Nanjing University of Technology, Nanjing, China
Search for other works by this author on:
Xinlong Wei
Nanjing University of Technology, Nanjing, China
Jianxin Zhou
Nanjing University of Technology, Nanjing, China
Xiang Ling
Nanjing University of Technology, Nanjing, China
Paper No:
PVP2013-97193, V06AT06A001; 7 pages
Published Online:
January 17, 2014
Citation
Wei, X, Zhou, J, & Ling, X. "Optimization of Residual Stresses Induced by Multiple Laser Shock Processing." Proceedings of the ASME 2013 Pressure Vessels and Piping Conference. Volume 6A: Materials and Fabrication. Paris, France. July 14–18, 2013. V06AT06A001. ASME. https://doi.org/10.1115/PVP2013-97193
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