厚板轧制过程中金属轴向化学不均匀性的转变模型

IF 0.8 4区 材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING
D. N. Chikishev, A. M. Baryshnikova
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引用次数: 0

摘要

金属中的轴向化学不均匀性是微合金管钢生产厚板产品过程中的一个常见问题。为了研究轧制过程中液化区的行为,我们开发了一个模型来描述和分析整个轧制部分的应力应变状态,包括轴向化学不均匀区。该数学模型使用有限元软件 Abaqus 实现。本文研究了厚板轧制过程中变形方向(纵向和横向)、变形程度和金属温度对化学不均匀性变化的影响。研究发现,变形程度对化学不均匀性的变化影响最大。结果表明,轧制时的变形量至少减少 10-15% 是最佳的,因为这种程度的变形能显著增强化学不均匀性的破碎。这是通过增加轴向区域的应力和应变强度实现的,这有助于打破金属不同化学不均匀区域之间的结合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Modeling of transformation of axial chemical inhomogeneity of metal in the process of thick-sheeted rolling

Modeling of transformation of axial chemical inhomogeneity of metal in the process of thick-sheeted rolling

Modeling of transformation of axial chemical inhomogeneity of metal in the process of thick-sheeted rolling

Axial chemical inhomogeneity in metals is a common issue in the production of thick-sheeted products from microalloyed pipe steels. To study the behavior of liquation zones during rolling, a model has been developed to describe and analyze the stress-strain state throughout the rolled section, including the axial chemical inhomogeneity zone. This mathematical model was implemented using the finite element software Abaqus. This paper investigates the influence of deformation direction (longitudinal and transverse), degree of deformation, and metal temperature on the changes in chemical inhomogeneity during thick-sheeted rolling. It has been found that the degree of deformation has the greatest influence on the transformation of chemical inhomogeneity. The results suggest that rolling with a reduction of at least 10–15% is optimal, since this level of deformation significantly enhances the fragmentation of chemical inhomogeneity. This is achieved by increasing the stress and strain intensities in the axial zone, which helps break the bonds between different areas of chemical inhomogeneity of the metal.

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来源期刊
Metallurgist
Metallurgist 工程技术-冶金工程
CiteScore
1.50
自引率
44.40%
发文量
151
审稿时长
4-8 weeks
期刊介绍: Metallurgist is the leading Russian journal in metallurgy. Publication started in 1956. Basic topics covered include: State of the art and development of enterprises in ferrous and nonferrous metallurgy and mining; Metallurgy of ferrous, nonferrous, rare, and precious metals; Metallurgical equipment; Automation and control; Protection of labor; Protection of the environment; Resources and energy saving; Quality and certification; History of metallurgy; Inventions (patents).
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