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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 347-353The Effects of Laser Shock Peening on...

The Effects of Laser Shock Peening on Microstructure and Properties of Metals and Alloys: A Review

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Abstract:

This study reviews the current status of the understanding and development of laser shock peening(LSP) on various metals. The influence of processing parameters on residual stresses, microstructure and properties are discussed. Special emphasis is placed on analyzing their underlying interrelationship between the LSP induced modifications. Finally, recommendations for further study are listed. Results indicate that the combination of uniquely flexible process and excellent performance makes the laser shock peening an attractive candidate for surface optimization applications.

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Periodical:

Advanced Materials Research (Volumes 347-353)

Pages:

1596-1604

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.347-353.1596

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Cite this paper

Online since:

October 2011

Authors:

Jin Liang Hu, Jun Lou, Hong Chan Sheng, Shu Hui Wu, Guo Xing Chen, Ke Feng Huang, Lin Ye, Ze Kun Liu, Yi Ling Shi, Song Yin

Keywords:

Interrelationship, Laser Shock Peening, Microstructure, Property Analysis

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[1] C.S. Montross, T. Wei, L. Ye, G. Clark, Y.W. Mai: International Journal of Fatigue, vol.24 (2002), p.1021.

[2] A.D. Evans, A. King, T. Pirling, P. Peyre, and P.J. Withers: Diffraction Engineering Against Fracture, vol.11 (2009), p.383.

[3] Y.Y. Hu, C.M. Gong, Z.Q. Yao, J. Hu: Surface and Coatings Technology, vol.203 (2009), p.3503.

[4] P. Peyre, R. Fabbro, P.Merrien: Materials Science and Engineering A, vol.210 (1996), p.102.

[5] P. Peyre, P. Merrien, H. Lieurade, in: D. Kiri (Ed.), the 5th International Conference on Shot Peening, Oxford, U.K., 1993.

[6] K. Ding, L. Ye: Journal of Materials Processing Technology, vol.178 (2006), p.162.

[7] P. Peyre, L. Berthe, X. Scherpereel and R. Fabbro: Journal of Materials Science, vol.33 (1998), p.1421.

DOI: 10.1023/a:1004331205389

[8] P.R. Smith, M. J. Shepard, P.S. Prevéy III, and A.H. Clauer: Journal of Materials Engineering and Performance, vol.9 (2000), p.33.

[9] A.W. Warren, Y.B. Guo, S.C. Chen: International Journal of Fatigue, vol.30 (2008), p.188.

[10] T. Tsakalakos, M.C. Croft, N.M. Jisrawi, R.L. Holtz, and Z. Zhong: Proceedings of the Sixteenth International Offshore and Polar Engineering Conference, San Francisco, USA, 2006.

[11] X. Scherpereel, P. Peyre, R. Fabbro, G. Lederer, N. Celati: Proceedings of the SPIE - The International Society for Optical Engineering, (1997), p.546.

[12] I. Nikitin, B. Scholtes, H.J. Maier, I. Altenberger: Scripta Materialia, vol.50 (2004), p.1345.

[13] B.N. Mordyuk, Yu.V. Milman, M.O. Iefimov, G.I. Prokopenko V.V. Silberschmidt, M.I. Danylenko, A.V. Kotko: Surface and Coating Technology, vol.202 (2008), p.4875.

DOI: 10.1016/j.surfcoat.2008.04.080

[14] I. Nikitin, I. Altenberger: Materials Science and Engineering A, vol.465 (2007), p.176.

[15] J.Z. Lu, K.Y. Luo, Y.K. Zhang, C.Y. Cui, G.F. Sun, J.Z. Zhou, L. Zhang, J. You, K.M. Chen , J.W. Zhong: Acta Materialia, vol.58 (2010), p.3984.

[16] J.Z. Lu, K.Y. Luo, Y.K. Zhang, J.Z. Zhou, X.G. Cui, L. Zhang, J.W. Zhong: Materials Science and Engineering A, vol.528 (2010), p.730.

[17] M. Turski., S. Clitheroe, A.D. Evans.,C. Rodopoulos, D.J., Hughes, P.J. Withers: Applied Physic A, vol.99 (2010), p.549.

[18] I. Nikitin, B. Scholtes, H.J. Maier, I. Altenberger: Scripta Materialia, vol.50 (2004), p.1345.

[19] B.N. Mordyuk, Yu.V. Milman, M.O. Iefimov, G.I. Prokopenko V.V. Silberschmidt, M.I. Danylenko, A.V. Kotko: Surface and Coating Technologies, vol.202 (2008), p.4875.

DOI: 10.1016/j.surfcoat.2008.04.080

[20] I. Nikitin, I. Altenberger: Materials Science and Engineering A, vol.465 (2007), p.176.

[21] K.Y. Luo, J.Z.Lu, Y.K. Zhang, J.Z. Zhou, L.F. Zhang, F.Z. Dai, L.Zhang, J.W. Zhong, C.Y. Cui: Materials Science and Engineering A, (2011), in press.

[22] J.Z. Lu, K.Y. Luo, Y.K. Zhang, G.F. Sun, Y.Y. Gu, J.Z. Zhou, X.D. Ren, X.C. Zhang, L.F. Zhang, K.M. Chen, C.Y. Cui, Y.F. Jiang, A.X. Feng, L. Zhang: Acta Materialia, vol.58 (2010), p.5354.

DOI: 10.1016/j.actamat.2010.06.010

[23] I. Altenberger, E.A. Stach, G. Liu, R.K. Nalla, R.O. Ritchie: Scripta Materialia, vol.48 (2003), p.1593.

[24] J.J. Ruschau, R. John, S.R. Thompson, Theodore Nicholas: International Journal of Fatigue, vol.21 (1999), p.199.

[25] P. Peyre, X. Scherpereel, L. Berthe, C. Carboni, R. Fabbro, G. Beranger, C. Lemaitre: Materials Science and Engineering A, vol.280 (2000), p.294.

DOI: 10.1016/s0921-5093(99)00698-x

[26] L. Zhang, J.Z. Lu , Y.K. Zhang, K.Y. Luo, J.W. Zhong, C.Y. Cui, D.J. Kong, H.B. Guan, X.M. Qian: Materials and Design, vol.32 (2011), p.480.

[27] K. Masaki, Y. Ochi, T. Matsumura, T. Ikarashi and Y. Sano: Journal Power and Energy Systems, vol.4 (2010), p.94.

[28] K. Masaki, Y. Ochi, T. Matsumura, Y. Sano: Materials Science and Engineering A, vol. 468-470 (2007), p.171.

[29] O. Hatamleh: Materials Science and Engineering A, vol. 492 (2008), p.168.

[30] Dongkyun Lee and Elijah Kannatey-Asibu: Journal of laser applications, vol.23 (2011), p.0220041.

[31] Y.K. Gao: Materials Science and Engineering A, vol.528 (2011), p.3823.

[32] Laser shock peening for fatigue resistance. www. lsptechnologies.com.

[33] X.C. Zhang, Y.K. Zhang, J.Z. Lu, F.Z. Xuan, Z.D. Wang, S.T. Tu: Materials Science and Engineering A, vol.527 (2010) p.5273411.

[34] B.S. Yilbas, S.Z. Shuja, A.Arif, M.A. Gondal: Journal of Material Processing Technology, vol.135 (2003), p.6.

[35] I.Watanabe, M. McBride, P. Newton, K.S. Kurtz: Dental Materials, vol.25 (2009), p.629.

[36] Q.S. Yan, J.B. Lu, J. Wang and H. Gao: Advanced Materials Research, vol.135 (2010), p.209.

[37] L.A. Hackel et al. U.S. Patent 7723643B2(2010).

[38] G. Hammersley, L.A. Hackel, F. Harris: Optics and Lasers in Engineering, vol.34 (2000), p.327.

[39] J.J. Ruschau, R. John, S.R. Thompson, T. Nicholas: Journal of Fatigue. vol.21 (1999), p.199.

[40] Bolger JA, Montross CS: Journal of Applied Physics. vol.86 (1999), p.5461.

[41] J. M. Yang, Y. C. Hera, Nanlin Hana and Alan Clauerb: Materials Science and Engineering A. vol.298 (2001), p.296.

[42] H. Zhang and C.H. Yu: Materials Science and Engineering A. vol.257 (1998), p.322.