提高陶瓷高速磨削温度有限元仿真精度的研究

Study on improving the accuracy of finite element simulation of ceramic high speed grinding temperature

磨削温度对工程陶瓷高速磨削性能有重要的影响。采用热电偶法测量工程陶瓷高速磨削温度较困难。而有限元仿真磨削温度能比较容易地对工程陶瓷的高速磨削温度进行深入分析,但由于目前工程陶瓷高速磨削工件热分配比公式精度较低,导致工程陶瓷有限元仿真高速磨削温度的误差较大。因此在采用热电偶法做少量的工程陶瓷高速磨削温度测量实验的基础上,采用最小二乘法线性回归对目前的工程陶瓷磨削工件热分配比的计算公式进行修正,得到了较高精度的工程陶瓷高速磨削工件热分配比公式。在此基础上工程陶瓷的有限元仿真高速磨削温度与实验测量磨削温度的误差控制在8.9%范围内,从而明显提高了工程陶瓷有限元仿真高速磨削温度的精度。

Grinding temperature has an important influence on the high-speed grinding performance of engineering ceramics.It is difficult to measure the high-speed grinding temperature of engineering ceramics by thermocouple method.The finite element simulation grinding temperature can easily analyze the high-speed grinding temperature of engineering ceramics,but the error of engineering ceramics finite element simulation grinding temperature is large due to the low accuracy of engineering ceramics grinding thermal partition ratio.Therefore,on the basis of a small number of engineering ceramics high-speed grinding temperature measurement experiments by using thermocouple method,the current calculation formula of thermal partition ratio of engineering ceramics grinding workpiece is modified by using least square linear regression,and a high-precision formula of thermal partition ratio of engineering ceramics high-speed grinding workpiece is obtained.On this basis,the error between the high-speed grinding temperature simulated by the finite element method and the grinding temperature measured by the experiment is controlled within 8.9%,which significantly improves the accuracy of the high-speed grinding temperature simulated by the finite element method.