摘要
为描述预置粉Nd:YAG激光熔覆过程中温度场的变化规律,建立了三维预置粉激光熔覆物理模型,通过自行编程,利用三维表格施加高斯激光热流密度载荷,实现载荷的空间分布与时间移动,在ANSYS软件中模拟计算了预置粉Nd:YAG激光熔覆过程温度场。模拟结果表明光斑中心处温度最高,为2.8×10~3℃,并以光斑为中心逐层降低,等温线近似椭圆形,椭圆中心位于光斑后方。光斑点的升温变化率、降温变化率、热梯度分别为7×10~3℃/s、5×10~3℃/s、2×10~6W/(m^2·s)。这些结果数据为激光熔覆工艺参数的优化提供了理论依据。
For the purpose of depicting the rule of temperature field during Nd:YAG laser cladding with preset-powder,a threedimensional(3D) physical model of laser cladding with preset-powder has been made. The load of Gauss laser heat flux is imposed by 3D table and the load can be varied spatially and temporally. The temperature field of Nd:YAG laser cladding is simu lated and calculated by ANSYS software. The result shows that the highest temperature is about 2.8×10^3℃ at the spot and the temperature declines gradually along the radius with the center of the spot. The isothermal line is like a ellipse and the center is behind the spot. In the spot,the temperature build-up rate,the temperature rate of descent and the thermal gradient are 7×10^3℃/s, 5×10^3℃/s, 2 ×10^6℃ W/(m2·s), respectively. These results provide theoretical guide for the parametric optimization of laser cladding.
出处
《应用激光》
CSCD
北大核心
2009年第3期189-193,共5页
Applied Laser
基金
广东省科技攻关项目(项目编号:2006A10405002
2007B010400067)
关键词
激光熔覆
温度场
数值模拟
三维表格
laser cladding
temperature field
numerical simulation
three-dimensional table
