铝合金型材挤压模具加热的热化学处理数值分析

Pub Date : 2023-08-02 DOI:10.24425/ather.2023.146563
D. Joachimiak, Wojciech Judt, M. Joachimiak
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引用次数: 0

摘要

热化学处理工艺用于生产具有改进的机械性能的工件表面层。气体氮化过程中的一个重要参数是表面温度。在热化学处理过程中,精确确定具有复杂几何形状的热处理块状部件的表面温度存在问题。本文对用于挤压铝制品的模具的加热过程进行了模拟。分析了在挤压铝制品过程中,在模具体积、表面和最大机械应力边缘计算的最大温度差异。使用商用瞬态热分析软件模拟模具的加热。模具的数值计算假设了一个边界条件,其形式为从热化学处理炉中的实验研究中获得的传热系数,以及圆柱体中热传导方程的非平稳和非线性反问题的解。对不同的加热速率和风扇设置进行了模具加热分析。获得了表面温度和加热模具体积的主要差异。确定了提高热化学处理过程生产率和控制的可能方法。本文研究了具有复杂几何形状的大型零件模具的加热问题。本文指出了一种新的方法来开发控制具有复杂几何形状的块状部件的热化学处理。
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Numerical analysis of the heating of a die for the extrusion of aluminium alloy profiles in terms of thermochemical treatment
Thermochemical treatment processes are used to produce a surface layer of the workpiece with improved mechanical properties. One of the important parameters during the gas nitriding processes is the temperature of the surface. In thermochemical treatment processes, there is a problem in precisely determining the surface temperature of heat-treated massive components with complex geometries. This paper presents a simulation of the heating process of a die used to extrude aluminium profiles. The maximum temperature differ-ences calculated in the die volume, on the surface and at the most mechanically stressed edge during the extrusion of the aluminum profiles were analysed. The heating of the die was simulated using commercial transient thermal analysis software. The numerical calculations of the die assumed a boundary condition in the form of the heat transfer coefficient obtained from experimental studies in a thermochemical treatment furnace and the solution of the nonstationary and non-linear inverse problem for the heat conduction equation in the cylinder. The die heating analysis was performed for various heating rates and fan settings. Major differences in the surface temperature and in the volume of the heated die were obtained. Possible ways to improve the productivity and control of thermochemical treatment processes were identified. The paper investigates the heating of a die, which is a massive component with complex geometry. This paper indicates a new way to develop methods for the control of thermochemical processing of massive components with complex geometries.
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