Numerical simulation of laser-generated ultrasound in non-metallic material by the finite element method
- 作者:Jijun Wang ; Zhonghua Shen ; Baiqiang Xu ; Xiaowu Ni ; Jianfei Guan ; Jian Lu
- 关键词:Laser-generated ultrasound ; Finite element method ; Non-metallic material
- 刊名:Optics and Laser Technology
- 出版年:2007
- 期刊代码:48_00303992
- 类别:ph
- 出版时间:June 2007
- 卷:39
- 期:4
- 页码:806-813
- 文件大小:363 K
摘要
The use of a pulsed laser for the generation of the elastic waves in non-metallic materials in the thermoelastic regime is investigated by using finite element method (FEM), taking into account not only thermal diffusion and the finite spatial and temporal shape of the laser pulse, but also optical penetration and the temperature dependence of material properties. The optimum finite element model is established based on analysis of two important parameters, meshing size and time step, and the stability of solution. Temperature distributions and temperature gradient fields in non-metallic material for different time steps are obtained, this temperature field is equivalent to a bulk force source to generate ultrasonic wave. The laser-generated ultrasound waveforms at the epicenter and surface acoustic waveforms (SAWs) are obtained and the influence of optical penetration into the material on the temperature field and the ultrasound waveforms are analyzed. The numerical results indicate that the heat penetration into non-metallic material is caused mainly by the optical penetration, and the ultrasound waveforms, especially the shape of the precursor, are strongly dependent on the optical penetration depth into non-metallic material.