摘要本文以钢铁零件为研究对象,利用ANSYS软件对钢件零件淬火过程进行热应力学耦合分析,模拟过程进行建模、网格剖分、加载及求解。分别改变不同淬火时间、淬火温度和淬火冷却介质的工艺参数,研究它们的温度场,应力场的分布,然后进行分析和对比。模拟结果表明淬火介质和淬火温度对淬火过程有显著影响。钢件淬火温度越高,零件心部的等效应力越高,钢件水淬火冷却内应力比油淬火冷却大,油淬火冷却介质的热稳定性和冷却均匀性比水好。对于现实工业生产淬火液的选取及淬火工艺的优化有重要的指导意义。68218
毕业论文关键词 : ANSYS 温度场 应力场 淬火 耦合有限元
毕业设计说明书(论文)外文摘要
Title Finite element analysis about the thermodynamic coupling of steel parts in quenching process
Abstract
This paper takes a steel parts as the research object, thermal mechanical coupled analysis of quenching process of steel parts by using ANSYS software, the simulation process modeling, mesh, loading and solution. Process parameters of different quenching time, quenching temperature and cooling medium were changed to study their, temperature field, stress field, then analyzes and compares. The simulation results show that the quenching medium, quenching temperature has significant effect on the quenching process. The higher the quenching temperature of steel, the equivalent parts of stress is high, the steel water quenching stress than oil quenching, oil quenching cooling medium heat stability and cooling uniformity better than water. There is an important guiding significance for the selection and optimization of quenching process of actual production of the quenching liquid.
Key words: ANSYS Temperrature field Stress field Quenching Coupled finite element
目录
1 绪论 1
1.1 引言 1
1.2 淬火过程的研究 1
1.2.1 钢的淬火 1
1.2.2 淬火冷却介质 2
1.2.3 淬火冷却方法 2
1.2.4 钢件淬火的温度场和应力场 3
1.2.5 淬火冷却过程的数值模拟 4
1.3 ANSYS有限元分析法 8
1.3.1 有限元方法介绍 8
1.3.2 有限元求解的基本步骤 9
1.3.3 ANSYS 软件简介 9
1.4 ANSYS研究和应用 10
1.4.1 ANSYS在实际工程应用 10
1.4.2 ANSYS分析方法 11
2 基于ANSYS对淬火温度场,应力场的数值模拟分析 12
2.1 钢球淬火过程数值模拟分析 12
2.1.1 问题描述 12
2.1.2 定义单元类型 12
2.1.3 单元的材料特性 12
2.1.4 创建几何模型、划分网格 12
2.1.5 施加载荷