激光冲击强化残余应力场的数值仿真分析
胡永祥, 姚振强, 胡俊. 激光冲击强化残余应力场的数值仿真分析[J]. 中国激光, 2006, 33(6): 846.
胡永祥, 姚振强, 胡俊. Numerical Simulation of Residual Stress Field for Laser Shock Processing[J]. Chinese Journal of Lasers, 2006, 33(6): 846.
[1] . Clauer, David F. Lahrman. Laser shock processing as a surface enhancement process[J]. Key Engineering Materials, 2001, 197: 121-144.
[5] . Finite element simulation of laser shock peening[J]. International Journal of Fatigue, 1999, 21(7): 719-724.
[6] . Ding, L. Ye. FEM simulation of two sided laser shock peening of thin sections of Ti-6Al-4V alloy[J]. Surface Engineering, 2003, 19(2): 127-133.
[7] . Peyre, A. Sollier, I. Chaieb et al.. FEM simulation of residual stresses induced by laser peening[J]. The European Physical Journal Applied Physics, 2003, 23(2): 83-88.
[8] . Ding, L. Ye. Three-dimensional dynamic finite element analysis of multiple laser shock peening processes[J]. Surface Engineering, 2003, 19(5): 351-358.
[9] Wang Lili. Stress Wave Theory [M]. Beijing: National Defense Industry Press, 1985. 149~159
王礼力. 应力波基础[M]. 北京:国防工业出版社, 1985. 149~159
[10] . Fabbro, J. Fournier, P. Ballard et al.. Physics study of laser-produced plasma in confined geometry[J]. J. Appl. Phys., 1990, 68(2): 775-784.
[11] . . Stress wave measurement induced by laser shock[J]. Electromachining & Mould, 1994, 1: 29-32.
[12] P. Ballard. Residual stresses induced by rapid impact-applications of laser shocking [D]. Palaiseau, France: Ecole Polytechnique, 1991
胡永祥, 姚振强, 胡俊. 激光冲击强化残余应力场的数值仿真分析[J]. 中国激光, 2006, 33(6): 846. 胡永祥, 姚振强, 胡俊. Numerical Simulation of Residual Stress Field for Laser Shock Processing[J]. Chinese Journal of Lasers, 2006, 33(6): 846.