INFLUENCE OF HEAT TRANSFER COEFFICIENT ON QUENCHING PROCESSES SIMULATION

METAL 2020 Conference Proeedings Pub Date : 2020-01-01 DOI:10.37904/metal.2020.3510

I. Danev, D. Gospodinov, R. Radev, M. Ilieva

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Abstract

Currently, heat treatment is the most common and effective method for changing the properties of metals and their alloys. Ferrous alloys most often are heat treated and the most commonly used process of heat treatment is the quenching. At quenching the final structure and material’s properties are formed during the fast cooling process. Therefore, the correct choice of cooling conditions is critical for quality of quenched parts. The simulation of quenching is one of the modern approaches for researching the cooling processes. In order to obtain reliable results, the correct input data for simulation are crucial. It is commonly accepted that the heat transfer coefficient (HTC) plays most significant influence on the simulation results. Meanwhile in the specialized literature there are quite different values of HTC even at equal cooling conditions and a few data regarding its influence on the simulation results. The aim of this paper is to determine to what extent the results obtained after simulation of quenching processes are influenced by HTC. Samples of different dimensions and ratios between length and diameter (L/D), made of medium carbon steel (C45 EN 10083), were studied. Results for the influence of HTC together with geometry of the quenched parts, especially samples with different ratio length/diameter (L/D), are presented in the article.

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传热系数对淬火过程模拟的影响

目前，热处理是改变金属及其合金性能的最常见和最有效的方法。铁合金最常进行热处理，最常用的热处理工艺是淬火。淬火时，材料的最终组织和性能是在快速冷却过程中形成的。因此，正确选择冷却条件对淬火件的质量至关重要。淬火模拟是研究冷却过程的现代方法之一。为了获得可靠的仿真结果，正确的仿真输入数据至关重要。一般认为传热系数(HTC)对模拟结果的影响最为显著。同时，在专业文献中，即使在相同的冷却条件下，HTC的数值也相差很大，关于其对模拟结果影响的数据也很少。本文的目的是确定淬火过程模拟后得到的结果在多大程度上受到HTC的影响。对中碳钢(C45 EN 10083)不同尺寸和长径比(L/D)试样进行了研究。文中给出了HTC和淬火件几何形状的影响，特别是不同长径比(L/D)试样的影响。

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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METAL 2020 Conference Proeedings

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