Application Research on MTC Technology in Casting Based on FEM Simulation

2009 International Conference on Computer Modeling and Simulation Pub Date : 2009-02-20 DOI:10.1109/ICCMS.2009.23

D. You, M. Shao

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Abstract

Application research on Mold Temperature Control (MTC) technology in casting was done based on Finite Element Method (FEM). A MTC forming process is presented here. The mathematical models of numerical computation are established, including heat transfer differential equation and its equivalent integral formulae and FEM combined equations, boundary conditions, processing method of MTC units. The numerical computational software was developed to implement the numerical model, and a control algorithm which is closer to the real process since the MTC units can be automatic controlled in it was presented. The 3D transient heat transfer analyses of three MTC cases were done using the developed software. The computational results indicate that in the second case, the solid-liquid interface keeps near-planar, and the growth velocity of the solid-liquid interface is greater than the first case, performing better than the others. Additionally, the relative errors between the numerical and experimental data are less than 8 percent. Thereby, the MTC technology is propitious to improve the forming quality and efficiency.

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基于有限元模拟的MTC技术在铸造中的应用研究

基于有限元法对模具温度控制技术在铸造中的应用进行了研究。本文介绍了一种MTC成形工艺。建立了数值计算的数学模型，包括传热微分方程及其等效积分公式和有限元组合方程、边界条件、MTC单元的加工方法。开发了数值计算软件来实现数值模型，并提出了一种更接近实际过程的控制算法，因为该算法可以自动控制MTC单元。利用所开发的软件对三种MTC工况进行了三维瞬态传热分析。计算结果表明，在第二种情况下，固液界面保持近平面，且固液界面的生长速度大于第一种情况，性能优于其他情况。此外，数值与实验数据的相对误差小于8%。因此，MTC技术有利于提高成形质量和效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 International Conference on Computer Modeling and Simulation

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