NUMERICAL SIMULATION AND EXPERIMENT STUDY ON PULSED LASER SURFACE MICRO-TEXTURING IN CARBON TOOL STEEL

机译：碳工具钢中脉冲激光表面微纹理的数值模拟与实验研究

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In order to predict the topography of the pulsed laser surface micro-texturing in carbon tool steel, the energy-balance equation, heat source mode, boundary conditions equation were established. Based on above mathematical model, temperature field and crater was simulated by the finite element analyzing software-ANSYS. The simulation results indicate that: As the laser intensity increases, the crater depth produced by single pulse increases. But there is an utmost depth of crater as the laser intensity increases; The crater depth almost linearly increases as the pulse count is under 10. But the depth growth rate becomes slower as it is above 10. The experiments were done in the same parameters with Nd: YAG laser. And the 3-D topography was measured with the Wyko System. The experiment results are consistent with the simulation results. This research lays a foundation for laser machining micro-texturing in a rapid and effective way.

机译：为了预测碳工具钢中脉冲激光表面微纹理的地形，建立了能量平衡方程，热源模式，边界条件方程。基于上述数学模型，有限元分析软件ANSYS模拟温度场和火山口。仿真结果表明：随着激光强度的增加，单脉冲产生的火山口深度增加。但随着激光强度的增加，有一个最大的陨石坑;由于脉冲计数低于10，则火山口深度几乎线性增加。但是在10以上，深度生长速率变得更慢。实验在与Nd：YAG激光相同的参数中进行。并且3-D地形与Wyko系统测量。实验结果与模拟结果一致。该研究为激光加工微型纹理以快速有效的方式为基础。

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《Pacific International Conference on Applications of Lasers and Optics》|2008年||共6页
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作者
Huixia Liu; Shengjun Yang; Xiao Wang;
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中图分类计量学;
关键词
Pulsed laser; Numerical simulation; Micro-texturing; Ablation; Carbon Tool Steel;

机译：脉冲激光;数值模拟;微纹理;消融;碳工具钢;
入库时间 2022-08-21 06:22:21

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NUMERICAL SIMULATION AND EXPERIMENT STUDY ON PULSED LASER SURFACE MICRO-TEXTURING IN CARBON TOOL STEEL

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