1、 - I - 换热器热应力耦合分析换热器热应力耦合分析 摘 要 换热器是传热工程必不可少的设备,几乎一切工业领域都要使用。化工,冶金,动 力,交递,航空与航天部门应用尤为广泛。在底部有热源作用的散热片,主要通过传导 与对流进行热交换。为保证散热片的散热性能达到设计的要求,从而避免电子产品因过 热而造成损坏,就需要对其进行热分析,计算在实际工况下的温度分布,校核其散热性 能。因此,对换热器进行热应力耦合分析具有十分重要意义。传统方法的热分析其温度 变化必须是非常的缓慢,而且在升降温过程中的不易控制,难以正确校核其散热性能。 随着计算机技术的发展, 使得有限元法有着突飞猛进的进展。 结合计算机辅助
2、设计技术, 有限元法也被用于计算机辅助制造中。 ANSYS 的热分析基于能量守恒原理的热平衡方程, 正确模拟散热片的工况,通过有限元法计算各节点的温度分布,并由此导出其他热物理 参数,为散热片的设计选材提供合理的参数,使产品的研发更加快速、高效和经济。 关键词:换热器;有限元;关键词:换热器;有限元;ANSYSANSYS;散热片;散热片 - II - Heat exchanger coupled thermal stress analysis Abstract Heat transfer engineering is essential equipment to be used almost
3、all industrial fields. Chemical, metallurgical, power, handoff, application of aviation and aerospace sector is particularly extensive. In the bottom of the heat sink effect, mainly through conduction and convection heat exchange. To ensure the heat sink thermal performance to meet the design requir
4、ements, so as to avoid overheating of electronic products due to damage to its thermal analysis requiredto calculate the temperature distribution in the actual conditions, check the heat dissipation. Therefore, thermal stress coupled heat exchanger analysis is of great significance. Traditional methods of thermal analysis the temperature change must be very slow, and in heating and cooling process difficult to control, difficult to properly check its thermal performance. With the development
