References
- Hu, Y., Yao, Z., and Hu, J., 2006, "3-D FEM Simulation of laser shock processing," Surface & Coatings Technology 201., Vol. 201, Issues 3-4, pp. 1426- 1435. https://doi.org/10.1016/j.surfcoat.2006.02.018
- Rhee, H. W. and Park, Y. S., 2004, "Distribution Characteristics of Residual Compressive Stresses Induced by Shot-peening in the Aircraft Structural Material," Journal of the Korean Society of Precision Engineering Vol. 21, No. 5, pp. 149-156.
- Zhang, Y. K., Ren, X. D., Zhou, J. Z., Lu, J. Z., and Zhou, L. C., 2009, "Investigation of the stress intensity factor changing on the hole crack subject to laser shock processing," Material and Design, 30., Vol. 30, Issues 7, pp. 2769-2773. https://doi.org/10.1016/j.matdes.2008.09.033
- Montross, C. S., Wei, T., Ye, L., Clark, G., and Mai, Y. W., 2002, "Laser shock processing and its effects on microstructure and properties of metal alloys: a review," International Journal of Fatigue 24, Vol. 24, Issues 10, pp. 1021-1036. https://doi.org/10.1016/S0142-1123(02)00022-1
- Yang, S. Y., Choi, S. D., Kim, G. M., Jun, J. M., and Gong, B. C., 2010, "Characteristics of-strengthening for thin metals by laser beam," Journal of the Korean Society of Machine Tool Engineers, Vol. 19, No.2, pp. 216-223.
- Rubio-Gonzalez, C., Gomez-Rosas, G., Ocana, J. L., Molpeceres, C., Banderas, A., Porro, J., and Morales, M., 2006, "Effect of an absorbent overlay on the residual stress field induced by laser shock processing on aluminum samples," Surface Science 252, Vol. 252, Issues 18, pp. 6201-6205. https://doi.org/10.1016/j.apsusc.2005.08.062
- Lu, J. Z., Zhang, L., Feng, A. X., Jiang, Y. F., and Cheng, G. G., 2009, "Effects of laser shock processing on mechanical properties of Fe-Ni alloy," Material and Design 30, Vol. 30, Issues 9, pp. 5-8.
- Braisted, W. and Brockman, R., 1999, "Finite element simulation of laser shock peening," International Journal of Fatigue 21, Vol. 21, Issues 7, pp. 719- 724. https://doi.org/10.1016/S0142-1123(99)00035-3
- Hammersley, G., Hackel, L. A., and Harris, F., 2000, "Surface prestressing to improve fatigue strength of components by laser shot peening," Optics and Laser in Engineering 34, Vol 34, Issues 4-6, pp. 327-337. https://doi.org/10.1016/S0143-8166(00)00083-X
- Yang, J. M., Her, Y. C., Han, N., and Clauer, A., 2001, "Laser shock peening on fatigue behavior of 2024-T3 AI alloy with fastener hole and stopholes," Material Science and Engineering A298, Vol. 298, Issues 1-2, pp. 296-299. https://doi.org/10.1016/S0921-5093(00)01277-6
- Chung, C. M., Baik, S. H., Kim, J. S., and Lee, S. B., 2008, "The Laser Peening Effect for Improving the Surface Properties of Metal," Journal of KSLP, Vol. 11, No. 3, pp. 5-8.
- Kim, T. G., Cheong, S. K., Kim, J. H., and Song, C. S., "A study on improvement of surface properties for titanium alloy using laser-induced shock waves," The Korean Society of Machine Tool Engineers Autumn Conference 2009, pp. 226-230.
- Choi, E. Y., Bhang, B. W., Son, S. K., and Cho, C. D., 2009, "A study on residual stress for A16061 alloy by laser plasma shock peening (LPSP) process," The Korean Society of Mechanical Engineers Spring Conference 2009, pp. 552-556.
- Hatamleh, O., Lyons, J., and Forman, R. H., 2007, "Laser and shot peening effects on fatigue crack growth in friction stir welded 7075-T7351 aluminum alloy joint," International of Journal of Fatigue 29, Vol. 29, Issues 3, pp. 421-434. https://doi.org/10.1016/j.ijfatigue.2006.05.007