钢在冷却过程中相变的平均场模型，该模型预测了奥氏体中碳浓度的演变

IF 0.9 4区材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING

Metallurgical Research & Technology Pub Date : 2021-01-01 DOI:10.1051/metal/2021046

D. Bachniak, R. Kuziak, D. Szeliga, M. Pietrzyk

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引用次数: 4

摘要

这篇论文的目的是双重的。首先是探索在钢冷却过程中快速可靠地建立相变模型的可能性，以解释奥氏体中碳浓度的演变。现有的离散模型需要较长的计算时间，在工业过程优化中的应用受到限制。因此，提出了一种基于修正的JMAK方程的模型。控制铁素体和贝氏体转变过程中奥氏体中的碳浓度可以预测奥氏体的不完全转变和残余奥氏体的出现。此外，还可以预测贝氏体转变后珠光体转变的开始。通过将预测结果与物理模拟结果进行比较，验证了模型的有效性。对各种工业过程进行了数值模拟。提出了等温试验和恒冷速试验孵育时间差异的问题。

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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Mean field model of phase transformations in steels during cooling, which predicts evolution of carbon concentration in the austenite

The objectives of the paper were twofold. The first was exploring possibility of fast and reliable modelling of phase transformations during cooling of steels, accounting for the evolution of the carbon concentration in the austenite. Existing discrete models require long computing times and their application to optimization of industrial processes is limited. Therefore, a model based on the modified JMAK equation was proposed. Control of the carbon concentration in the austenite during ferritic and bainitic transformations allowed to predict incomplete austenite transformation and occurrence of the retained austenite. Moreover, prediction of the onset of pearlitic transformation after the bainitic was possible. The model was validated by comparison the predictions with the results of physical simulations. Numerical simulations for various industrial processes were performed. Problem of the difference in the incubation time between isothermal and constant cooling rate tests was raised.

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来源期刊

Metallurgical Research & Technology METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

1.70

自引率

9.10%

发文量

审稿时长

4.4 months

期刊介绍： Metallurgical Research and Technology (MRT) is a peer-reviewed bi-monthly journal publishing original high-quality research papers in areas ranging from process metallurgy to metal product properties and applications of ferrous and non-ferrous metals and alloys, including light-metals. It covers also the materials involved in the metal processing as ores, refractories and slags. The journal is listed in the citation index Web of Science and has an Impact Factor. It is highly concerned by the technological innovation as a support of the metallurgical industry at a time when it has to tackle severe challenges like energy, raw materials, sustainability, environment... Strengthening and enhancing the dialogue between science and industry is at the heart of the scope of MRT. This is why it welcomes manuscripts focusing on industrial practice, as well as basic metallurgical knowledge or review articles.