多点连续动态激光冲击强化残余应力场数值分析

In order to improve the efficiency and accuracy of numerical simulation of laser shock peening(LSP), a continuous explicit-dynamic impact simulation strategy was proposed based on the traditional simulation strategy. The explicit-dynamic analysis was used directly to simulate the multiple shot peening. And then the implicit-static analysis was used to obtain the stable residual stress field after being balanced. The three-dimensional finite element model of a plate was established by ABAQUS. Based on this strategy, the distribution of residual stress field after repeated impacts was studied. After Python post-processing, the simulated values were in good agreement with the experimental measurements. It was shown that the maximum residual stress was -212.5MPa; the mean value was -216.7MPa, and the error was 1.9% when the laser power density was 1GW/cm². With the increase of laser power density from 1GW/cm² to 4GW/cm², the depth of residual stress layer increased from 0.7mm to 1mm. The simulation accuracy was effectively improved on the basis of greatly improving the simulation efficiency, providing a simulation idea for large area LSP numerical simulation of large-scale structures.