了解冷轧过程中无规取向 AZ31B 合金基底纹理的形成过程

IF 15.8 1区材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING

Journal of Magnesium and Alloys Pub Date : 2024-10-01 DOI:10.1016/j.jma.2023.12.005

Wenhan Jin , Baolin Wu , Li Zhang , Jie Wang , Claude Esling , Marie-Jeanne Philippe

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引用次数: 0

摘要

本研究结合使用改进的粘塑性自洽（VPSC）模型进行的模拟，对冷轧过程中基底纹理的形成和发展进行了实验研究。结果表明，轧制后延伸孪晶的取向呈现随机分布。与此相反，因滑移而变形的基体晶粒倾向于围绕法线方向（ND）的 c 轴取向。晶粒边界位错堆积引起的塑性应变集中造成了塑性变形的不均匀性，并促进了基体-金字塔和棱柱-棱柱二元滑移。结合基底〈a〉位错与金字塔〈c＋a〉位错之间以及棱柱〈a〉位错之间的相互作用，VPSC模型复制了实验结果，有效地展示了基底纹理的形成和发展过程。基底纹理的形成与孪晶无关，主要是由于基底〈a〉位错与金字塔〈c＋a〉位错之间相互作用形成的位错子边界所引起的错向发展。

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Understanding the basal texture initiation in a randomly-oriented AZ31B alloy during cold-rolling

This study experimentally investigated basal texture initiation and development during cold rolling, in combination with simulation using a modified visco-plastic self-consistent (VPSC) model. The results showed that the orientation of extension twins exhibit a random distribution after rolling. In contrast, the matrix grains deformed by slips tend to orientate with their c-axis around the normal direction (ND). Plastic strain concentration induced by dislocation piling up at grain boundaries contributes to plastic deformation inhomogeneity, and promotes the basal–pyramidal and prismatic–prismatic binary slips. Incorporated with the interactions between the basal 〈a〉 and pyramidal 〈c + a〉 dislocations, and between the prismatic 〈a〉 dislocations, the VPSC model replicates the experimental results, effectively demonstrating the process of the basal texture initiation and development. The basal texture initiation is independent of twinning, and results mainly from the development of misorientation induced by the formation of dislocation sub-boundaries via the interaction between the basal 〈a〉 and pyramidal 〈c + a〉 dislocations.

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来源期刊

Journal of Magnesium and Alloys Engineering-Mechanics of Materials

CiteScore

20.20

自引率

14.80%

发文量

审稿时长

59 days

期刊介绍： The Journal of Magnesium and Alloys serves as a global platform for both theoretical and experimental studies in magnesium science and engineering. It welcomes submissions investigating various scientific and engineering factors impacting the metallurgy, processing, microstructure, properties, and applications of magnesium and alloys. The journal covers all aspects of magnesium and alloy research, including raw materials, alloy casting, extrusion and deformation, corrosion and surface treatment, joining and machining, simulation and modeling, microstructure evolution and mechanical properties, new alloy development, magnesium-based composites, bio-materials and energy materials, applications, and recycling.