Abstract
Laser peening, or laser shock peening, is a surface modification technique using a laser-driven shock wave to improve mechanical properties of solids such as hardness, residual stress, fatigue properties, and corrosion resistance. An ultrashort pulsed laser-driven shock compression of solids enables peening without sacrificial overlay under atmospheric conditions, which is called Dry Laser Peening (DryLP). An ultrashort pulsed laser ablation of solids and the accompanying ultrashort pulsed laser-driven shock wave have an important role on the peening effects. Improvement of mechanical properties of base material and laser welded 2024 aluminum alloy using DryLP are described in this chapter.
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References
P. Fairand, B.A. Wilcox, W.J. Gallagher, D.N. Williams, J. Appl. Phys. 43, 3893 (1972)
P. Fairand, A.H. Clauer, J. Appl. Phys. 50, 1497 (1979)
A.H. Clauer, J.H. Holbrook, B.P. Fairand, Shock Waves and High-Strain-Rate Phenomena in Metals (Plenum Publishing Corporation, New York, 1981), pp. 675–703
R. Fabbro, J. Fournier, P. Ballard, D. Devaux, J. Virmont, J. Appl. Phys. 68, 775 (1990)
P. Peyre, R. Fabbro, P. Merrien, H.P. Lieurade, Mater. Sci. Eng. A 210, 102 (1996)
R. Fabbro, P. Peyre, L. Berthe, X. Scherpereel, J. Laser Appl. 10, 265 (1998)
J.P. Chu, J.M. Rigsbee, G. BanaÅ›, H.E. Elsayed-Ali, Mater. Sci. Eng. A 260, 260 (1999)
P. Peyre, X. Scherpereel, L. Berthe, C. Carboni, R. Fabbro, G. Béranger, C. Lemaitre, Mater. Sci. Eng. A 280, 294 (2000)
G. Hammersley, L.A. Hackel, F. Harris, Opt. Laser. Eng. 34, 327 (2000)
J.-M. Yang, Y.C. Her, N. Han, A. Clauer, Mater. Sci. Eng. A 298, 296 (2001)
C.S. Montross, T. Wei, L. Ye, G. Clark, Y.-W. Mai, Int. J. Fatigue 24, 1021 (2002)
R.K. Nalla, I. Altenberger, U. Noster, G.Y. Liu, B. Scholtes, R.O. Ritchie, Mater. Sci. Eng. A 355, 216 (2003)
I. Nikitin, B. Scholtes, H.J. Maier, I. Altenberger, Scripta Mater. 50, 1345 (2004)
W. Zhang, Y.L. Yao, I.C. Noyan, ASME, , J. Manuf. Sci. Eng. 126, 10 (2004)
C. Rubio-González, J.L. Ocaña, G. Gomez-Rosas, C. Molpeceres, M. Paredes, A. Banderas, J. Porro, M. Morales, Mater. Sci. Eng. A 386, 291 (2004)
K. Ding, L. Ye, Laser Shock Peening: Performance and Process Simulation (Woodhead Publishing, Cambridge, 2006)
Y. Sano, M. Obata, T. Kubo, N. Mukai, M. Yoda, K. Masaki, Y. Ochi, Mater. Sci. Eng. A 417, 334 (2006)
O. Hatamleh, J. Lyons, R. Forman, Int. J. Fatigue 29, 421 (2007)
I. Nikitin, I. Altenberger, Mater. Sci. Eng. A 465, 176 (2007)
A.W. Warren, Y.B. Guo, S.C. Chen, Int. J. Fatigue 30, 188 (2008)
R.D. Tenaglia, D.F. Lahrman, Nat. Photonics 3, 267 (2009)
C. Ye, S. Suslov, B.J. Kim, E.A. Stach, G.J. Cheng, Acta Mater. 59, 1014 (2011)
Y. Zhang, J. Lu, K. Luo, Laser Shock Processing of FCC Metals: Mechanical Properties and Micro-Structural Strengthening Mechanism (Springer, New York, 2013)
X. Ren, Laser Shocking Nano-Crystallization and High-Temperature Modification Technology (Springer, New York, 2015)
Y. Liao, C. Ye, G.J. Cheng, Opt. Laser. Technol. 78, 15 (2016)
D. Strickland, G. Mourou, Opt. Commun. 56, 219 (1985)
R. Evans, A.D. Badger, F. Fallies, M. Mahdieh, T.A. Hall, P. Audebert, J.-P. Geindre, J.-C. Gauthier, A. Mysyrowicz, G. Grillon, A. Antonetti, Phys. Rev. Lett. 77, 3359–3362 (1996)
K.T. Gahagan, D.S. Moore, D.J. Funk, R.L. Rabie, S.J. Buelow, Phys. Rev. Lett. 85, 3205 (2000)
D.J. Funk, D.S. Moore, K.T. Gahagan, S.J. Buelow, J.H. Reho, G.L. Fisher, R.L. Rabie, Phys. Rev. B 64, 115114 (2001)
D.S. Moore, K.T. Gahagan, J.H. Reho, D.J. Funk, S.J. Buelow, R.L. Rabie, T. Lippert, Appl. Phys. Lett. 78, 40 (2001)
S.D. McGrane, D.S. Moore, D.J. Funk, R.L. Rabie, Appl. Phys. Lett. 80, 3919 (2002)
S.I. Anisimov, N.A. Inogamov, Y.V. Petrov, V.A. Khokhlov, V.V. Zhakhovskii, K. Nishihara, M.B. Agranat, S.I. Ashitkov, P.S. Komarov, Appl. Phys. A 92, 797 (2008)
M.B. Agranat, S.I. Anisimov, S.I. Ashitkov, V.V. Zhakhovskii, N.A. Inogamov, P.S. Komarov, A.V. Ovchinnikov, V.E. Fortov, V.A. Khokhlov, V.V. Shepelev, JETP Lett. 91, 471 (2010)
S.I. Ashitkov, M.B. Agranat, G.I. Kanel, P.S. Komarov, V.E. Fortov, JETP Lett. 92, 516 (2010)
V.V. Zhakhovskii, N.A. Inogamov, JETP Lett. 92, 521 (2010)
V.V. Zhakhovsky, M.M. Budzevich, N.A. Inogamov, I.I. Oleynik, C.T. White, Phys. Rev. Lett. 107, 135502 (2011)
J.C. Crowhurst, M.R. Armstrong, K.B. Knight, J.M. Zaug, E.M. Behymer, Phys. Rev. Lett. 107, 144302 (2011)
V.H. Whitley, S.D. McGrane, D.E. Eakins, C.A. Bolme, D.S. Moore, J.F. Bingert, J. Appl. Phys. 109, 013505 (2011)
A.A. Ionin, S.I. Kudryashov, S.V. Makarov, L.V. Seleznev, D.V. Sinitsyn, JETP Lett. 94, 34 (2011)
M.M. Budzevich, V.V. Zhakhovsky, C.T. White, I.I. Oleynik, Phys. Rev. Lett. 109, 125505 (2012)
B.J. Demaske, V.V. Zhakhovsky, N.A. Inogamov, I.I. Oleynik, Phys. Rev. B 87, 054109 (2013)
S.I. Ashitkov, P.S. Komarov, M.B. Agranat, G.I. Kanel, V.E. Fortov, JETP Lett. 98, 384 (2013)
J.C. Crowhurst, B.W. Reed, M.R. Armstrong, H.B. Radousky, J.A. Carter, D.C. Swift, J.M. Zaug, R.W. Minich, N.E. Teslich, M. Kumar, J. Appl. Phys. 115, 113506 (2014)
J.C. Crowhurst, M.R. Armstrong, S.D. Gates, J.M. Zaug, H.B. Radousky, N.E. Teslich, Appl. Phys. Lett. 109, 094102 (2016)
T. Sano, H. Mori, E. Ohmura, I. Miyamoto, Appl. Phys. Lett. 83, 3498 (2003)
T. Sano, K. Takahashi, O. Sakata, M. Okoshi, N. Inoue, K.F. Kobayashi, A. Hirose, J. Phys. Conf. Ser. 165, 012019 (2009)
M. Tsujino, T. Sano, O. Sakata, N. Ozaki, S. Kimura, S. Takeda, M. Okoshi, N. Inoue, R. Kodama, K.F. Kobayashi, A. Hirose, J. Appl. Phys. 110, 126103 (2011)
M. Tsujino, T. Sano, T. Ogura, M. Okoshi, N. Inoue, N. Ozaki, R. Kodama, K.F. Kobayashi, A. Hirose, Appl. Phys. Express 5, 022703 (2012)
T. Matsuda, T. Sano, K. Arakawa, A. Hirose, J. Appl. Phys. 116, 183506 (2014)
T. Matsuda, T. Sano, K. Arakawa, O. Sakata, H. Tajiri, A. Hirose, Appl. Phys. Express 7, 122704 (2014)
T. Matsuda, T. Sano, K. Arakawa, A. Hirose, Appl. Phys. Lett. 105, 021902 (2014)
B.N. Chichkov, C. Momma, S. Nolte, F. von Alvensleben, A. Tunnermann, Appl. Phys. A 63, 109 (1996)
R. Le Harzic, N. Huot, E. Audouard, C. Jonin, P. Laporte, S. Valette, A. Fraczkiewicz, R. Fortunier, Appl. Phys. Lett. 80, 3886 (2002)
T. Sano, T. Eimura, R. Kashiwabara, T. Matsuda, Y. Isshiki, A. Hirose, S. Tsutsumi, K. Arakawa, T. Hashimoto, K. Masaki, Y. Sano, J. Laser Appl. 29, 012005 (2017)
T. Sano, T. Eimura, A. Hirose, Y. Kawahito, S. Katayama, K. Arakawa, K. Masaki, A. Shiro, T. Shobu, Y. Sano, Metals 9 (2019)
H. Nakano, S. Miyauti, N. Butani, T. Shibayanagi, M. Tsukamoto, N. Abe, J. Laser Micro/Nanoeng. 4, 35 (2009)
D. Lee, E. Kannatey-Asibu Jr., J. Laser Appl. 23, 022004 (2011)
Y. Sagisaka, M. Kamiya, M. Matsuda, Y. Ohta, J. Mater, Process. Tech. 210, 2304 (2010)
Y. Sagisaka, K. Yamashita, W. Yanagihara, H. Ueta, J. Mater, Process. Tech. 219, 230 (2015)
G.L. Eesley, Phys. Rev. Lett. 51, 2140 (1983)
J.G. Fujimoto, J.M. Liu, E.P. Ippen, Phys. Rev. Lett. 53, 1837 (1984)
G.L. Eesley, Rev. B 33, 2144 (1986)
R.W. Schoenlein, W.Z. Lin, J.G. Fujimoto, G.L. Eesley, Phys. Rev. Lett. 58, 1680 (1987)
A.P. Kanavin, I.V. Smetanin, V.A. Isakov, Yu.V. Afanasiev, B.N. Chichkov, B. Wellegehausen, S. Nolte, C. Momma, A. Tunnermann, Phys. Rev. B 57, 14698 (1998)
B. Rethfeld, A. Kaiser, M. Vicanek, G. Simon, Phys. Rev. B 65, 214303 (2002)
D. Perez, L.J. Lewis, Phys. Rev. Lett. 89, 255504 (2002)
D. Perez, L.J. Lewis, Phys. Rev. B 67, 184102 (2003)
D. Bejan, G. RaseevPhys, Rev. B 55, 4250 (1997)
M.I. Kaganov, I.M. Lifshitz, L.V. Tanatarov, Sov. Phys. JETP 4, 173 (1957)
P.B. Allen, Phys. Rev. Lett. 59, 1460 (1987)
J.I. Etcheverry, M. Mesaros, Phys. Rev. B 60, 9430 (1999)
K. Sokolowski-Tinten, J. Bialkowski, A. Cavalleri, D. von der Linde, A. Oparin, J. Meyer-ter-Vehn, S.I. Anisimov, Phys. Rev. Lett. 81, 224 (1998)
F. Vidal, T. Johnston, S. Laville, O. Bathelemy, M. Chaker, B.L. Drogoff, J. Margot, M. Sabsabi, Phys. Rev. Lett. 86, 2573 (2001)
L.V. Zhigilei, B.J. Garrison, J. Appl. Phys. 88, 1281 (2000)
C. Schafer, H.M. Urbassek, L.V. Zhigilei, Phys. Rev. B 66, 115404 (2002)
S.I. Anisimov, B.L. Kapeliovich, T.L. Perel’man, Sov. Phys. JETP 39, 375 (1974)
L.R. Veeser, J.C. Solem, Phys. Rev. Lett. 40, 1391 (1978)
R.J. Trainor, J.W. Shaner, J.M. Auerbach, N.C. Holmes, Phys. Rev. Lett. 42, 1154 (1979)
M. Koenig, B. Faral, J.M. Boudenne, D. Batani, A. Benuzzi, S. Bossi, C. Remond, J.P. Perrine, M. Temporal, S. Atzeni, Phys. Rev. Lett. 74, 2260 (1995)
S.H. Glenzer, B.J. MacGowan, P. Michel, N.B. Meezan, L.J. Suter, S.N. Dixit, J.L. Kline, G.A. Kyrala, D.K. Bradley, D.A. Callahan, E.L. Dewald, L. Divol, E. Dzenitis, M.J. Edwards, A.V. Hamza, C.A. Haynam, D.E. Hinkel, D.H. Kalantar, J.D. Kilkenny, O.L. Landen, J.D. Lindl, S. LePape, J.D. Moody, A. Nikroo, T. Parham, M.B. Schneider, R.P.J. Town, P. Wegner, K. Widmann, P. Whitman, B.K.F. Young, B. Van Wonterghem, L.J. Atherton, E.I. Moses, Science 327, 1228 (2010)
R. Pakula, R. Sigel, Phys. Fluids 28, 232 (1985)
A. Ng, A. Forsman, P. Celliers, Phys. Rev. E 51, 5208 (1995)
E. Tokunaga, A. Terasaki, T. Kobayashi, Opt. Lett. 17, 1131 (1992)
E. Kröner, Z. Phys. 151, 504 (1958)
N. Kamm, G.A. Alers, J. Appl. Phys. 35, 327 (1964)
Z. Horita, T. Fujinami, M. Nemoto, T.G. Langdon, Metall. Mater. Trans. A 31A, 691 (2000)
A.H. Clauer, C.T. Walters, S.C. Ford, Lasers in Materials Processing, vol. 7 (American Society for Metals, Metals Park, Ohio, 1983)
C.A. Rodopoulos, J.S. Romero, S.A. Curtis, E.R. de los Rios, P. Peyre, J. Mater. Eng. Perform. 12, 414 (2003)
C.A. Rodopoulos, S.A. Curtis, E.R. de los Rios, J. SolisRomero, Int. J. Fatigue 26, 849 (2004)
A. Ali, X. An, C.A. Rodopoulos, M.W. Brown, P. O’Hara, A. Levers, S. Gardiner, Int. J. Fatigue 29, 1531 (2007)
A. Gariepy, F. Bridier, M. Hoseini, P. Bocher, C. Perron, M. Levesque, Surf. Coat. Tech. 219, 15 (2013)
A.T. DeWald, J.E. Rankin, M.R. Hill, M.J. Lee, H.L. Chen, J. Eng. Mater. Technol. 126, 465 (2004)
H. Omar, J. Mater. Eng. Perform 17, 688 (2008)
O. Hatamleh, Int. J. Fatigue 31, 974 (2009)
Y. Sano, K. Masaki, T. Gushi, T. Sano, Mater. Des. 36, 809 (2012)
G. Bussu, P.E. Irving, Int. J. Fatigue 25, 77 (2003)
C.D.M. Liljedahl, J. Brouard, O. Zanellato, J. Lin, M.L. Tan, Int. J. Fatigue 31, 1081 (2009)
R. Nandan, T. DebRoy, H.K.D.H. Bhadeshia, Prog. Mater. Sci. 53, 980 (2008)
C. Kulekci, A.S. Ik, E. Kaluc, Int. J. Adv. Manuf. Technol. 36, 877 (2008)
M. Garware, G.T. Kridli, P.K. Mallick, J. Mater. Eng. Perform. 19, 1161 (2010)
T. Dursun, C. Soutis, Mater. Des. 56, 862 (2014)
E. Schubert, M. Klassen, I. Zerner, C. Walz, G. Sepold, J. Mater. Process. Technol. 115, 2 (2001)
S. Katayama, H. Nagayama, M. Mizutani, Y. Kawahito, Weld. Int. 23, 744 (2009)
T. Kawashima, T. Sano, A. Hirose, S. Tsutsumi, K. Masaki, K. Arakawa, H. Hori, J. Mater. Process. Technol. 262, 111 (2018)
T. Shobu, K. Tozawa, H. Shiwaku, H. Konishi, T. Inami, T. Harami, J. Mizuki, A.I.P. Conf, Proc. 879, 902 (2007)
T. Shobu, H. Konishi, J. Mizuki, K. Suzuki, H. Suzuki, Y. Akiniwa, K. Tanaka, Mater. Sci. Forum 524, 691 (2006)
R.E. Little, in Probabilistic Aspects of Fatigue, ed. by R. Heller (ASTM International: West Conshohocken, 1972), pp. 29–42
J. Ahn, L. Chenb, E. Heb, C.M. Daviesa, J.P. Deara, J. Manuf. Process. 25, 26 (2017)
J. Ahn, E. Heb, L. Chenb, J. Deara, C. Daviesa, J. Manuf. Process. 29, 62 (2017)
B. Hu, I.M. Richardson, J. Laser Appl. 17, 70 (2005)
C.E. Cross, D.L. Olson, S. Liu, Aluminium Welding, Handbook of Aluminum; Dekker: New York, vol. 1 (NY, USA, 2003)
A.S. Keh, Interscience Publishers: New York (NY, USA, 1962), pp. 213–233
E. Orowan, Proc. Phys. Soc. London 52, 8 (1940)
M.A. Meyers, Scripta Metall. 12, 21 (1978)
J.W. Swegle, D.E. Grady, J. Appl. Phys. 58, 692 (1985)
D.E. Grady, J. Appl. Phys. 107, 013506 (2010)
R.G. McQueen, S.P. March, J.W. Taylor, J.N. Fritz, W.J. Carter, High-Velocity Impact Phenomena ed. by R. Kinslow (Academic: New York, 1970), p. 293
Acknowledgements
This work was supported in part by MEXT Quantum Leap Flagship Program (MEXT Q-LEAP) Grant Number JPMXS0118068348, and JSPS KAKENHI Grant Numbers JP16H04247, JP16K14417, 19K22061, and 20H02048, The Amada Foundation, and The Light Metal Educational Foundation. This work was funded in part by ImPACT Program of Council for Science, Technology and Innovation (Cabinet Office, Government of Japan).
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Sano, T. (2020). Dry Laser Peening: Ultrashort Pulsed Laser Peening Without Sacrificial Overlay Under Atmospheric Conditions. In: Hu, A. (eds) Laser Micro-Nano-Manufacturing and 3D Microprinting. Springer Series in Materials Science, vol 309. Springer, Cham. https://doi.org/10.1007/978-3-030-59313-1_5
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