摘要
针对退火炉内保洁层厚度均匀不一、炉外壳温度过高以及材料的过于浪费等问题,提出基于ANSYS Workbench的有限元分析设计方法,对退火炉热传递情况进行仿真分析和退火炉内衬进行厚度的结构优化。着重介绍了退火炉内温度载荷的测量实验、退火炉的三维模型和有限元模型的建立、炉内温度场的有限元分析以及内衬厚度的优化等。结果表明,应用ANSYS Workbench进行退火炉的结构优化,使得炉体外壳温度适当,节约了内衬材料成本。为退火炉的实现设计安装提供很好的理论依据。
Analyze the structure of the annealing tin machine,Evenly mixed layer thickness for annealing furnace cleaning, not a furnace shell temperature is too high and the material is waste problems. Proposed design method based on the finite element analysis of ANSYS Workbench.Conditions for annealing furnace heat transfer simulation analysis and conduct annealing furnace lining thickness optimization.Focuses on the measurement of the annealing furnace temperature load test to establish a three-dimensional model of the annealing furnace and the finite element model, finite element analysis and optimization of the thickness of the lining of the furnace temperature field, etc.The results showed that application of ANSYS Workbench structural optimization annealing furnace, making the proper temperature furnace shell, lining material cost savings. To achieve annealing furnace design provides a good theoretical basis for the installation.
出处
《大众科技》
2014年第12期61-64,共4页
Popular Science & Technology
