摘要
针对测长绝热真空腔内温度场测量困难的特点,提出应用ANSYS有限元仿真与实验研究相结合的方法进行二维热分析。详细介绍了真空腔的ANSYS有限元建模、参数确定、网格划分、施加载荷和求解过程。仿真结果表明外界环境温度变化1℃,绝热真空腔内温度将变化0.085oC。对仿真结果进行了实验验证,实验结果证明利用该仿真技术可准确、可靠地分析绝热真空腔内的温度场,并且提高实验效率的同时降低了实验成本。
According to the difficulties of measuring temperature distribution in the adiabatic vacuum chamber, the method of combing ANSYS finite element simulation with experimental study is proposed. ANSYS finite element modeling, parameter identification, meshing, applying loads, and the solution process are described. Simulation results show that changes in ambient temperature 1 ℃, heat insulation vacuum chamber temperature will change 0. 085℃ , and verify the simulation results of the experiments. Test results show that use of the simulation can be accurate and reliable analysis of insulation vacuum chamber temperature, and improve test efficiency and reduce experimental costs.
出处
《计量学报》
CSCD
北大核心
2012年第5期416-418,共3页
Acta Metrologica Sinica
基金
国家科技部固体密度基准研究项目(2002DEA20014)