Combined CFD and Heat Treatment Simulation of High-Pressure Gas Quenching Process

IF 0.3 Q4 THERMODYNAMICS
P. Heinz, K. Juckelandt, S. Lutz
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引用次数: 0

Abstract

Abstract To improve the process development for high pressure gas quenching a digital quenching simulation model combining the fields of computational fluid dynamics and heat treatment process simulation has been developed. It was found that the gas flow and hence the quenching properties depend on both local (geometry of parts, carrier and chamber) as well as global influencing factors (fan characteristics, system pressure and hydraulic resistances). Therefore, a computational fluid dynamics model that includes all these factors was realized. The approach includes a heat transfer analysis to determine the local heat exchange coefficients on a component level. By connecting the computational fluid dynamics model and heat treatment simulation the local quenching characteristics are used to compute the temperature history of the quenched part. Based on a thermo-metallurgical heat treatment simulation the computed local cooling curves and metallurgical phase compositions are used to accurately predict the part properties like microstructure and hardness. The applicability of the model has been confirmed by hardness measurements. Hardness results for different batch positions, batch setups or tray systems can now be computed enabling an efficient virtual development of the gas quenching process.
高压气淬过程CFD与热处理模拟的结合
摘要为了提高高压气淬的工艺开发水平,建立了一种结合计算流体力学和热处理过程仿真的数字淬火仿真模型。研究发现,气体流量和淬火性能既取决于局部(零件、载体和腔室的几何形状),也取决于全局影响因素(风扇特性、系统压力和液压阻力)。因此,实现了一个包含所有这些因素的计算流体动力学模型。该方法包括传热分析,以确定部件水平上的局部热交换系数。将计算流体力学模型与热处理仿真相结合,利用局部淬火特性计算被淬火零件的温度历史。在热冶金热处理模拟的基础上,利用计算得到的局部冷却曲线和金相成分准确地预测了零件的显微组织和硬度等性能。通过硬度测量证实了该模型的适用性。现在可以计算不同批次位置、批次设置或托盘系统的硬度结果,从而实现气淬过程的有效虚拟开发。
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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来源期刊
CiteScore
1.50
自引率
33.30%
发文量
43
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