低应变条件下镁合金退火驱动再结晶行为的直接观察

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

Journal of Magnesium and Alloys Pub Date : 2024-12-10 DOI:10.1016/j.jma.2024.11.016

Yuzhi Zhu, Shuoxin Lv, Tianyi Li, Yang Ren, Zidong Wang, Dewen Hou

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引用次数: 0

摘要

在热力学驱动下，晶粒-孪晶相互作用是织构变质的重要因素。本研究采用原位同步x射线衍射和准原位电子背散射衍射技术，系统地跟踪和研究了预变形AZ31镁合金退火驱动的孪晶/脱晶行为、晶粒生长和相应的织构演变。在预变形的样品中，由于{101¹¹}的拉伸孪晶的激活而产生孪晶纹理。退火过程中，在100 ~ 280℃之间发生位错湮灭，在280℃以上发生再结晶，表现为初始残余基体和孪晶相互竞争吞噬，形成双峰织构。再结晶过程是通过边界移动来完成的，边界移动取决于边界上的能量差。此外，发现无论晶界类型或晶界能量如何，晶界都倾向于向储存能量较高的一侧移动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Direct observation of annealing-driven recrystallization behavior in magnesium alloy at low strain condition

查看原文本刊更多论文

Direct observation of annealing-driven recrystallization behavior in magnesium alloy at low strain condition

Grain-twin interactions are significant in texture modification under thermodynamic driving force. In this study, annealing-driven twinning/detwinning behavior, grain growth, and corresponding texture evolution in a pre-deformed AZ31 magnesium alloy were systematically tracked and investigated via in-situ heating synchrotron X-ray diffraction and quasi in-situ electron backscattered diffraction techniques. A twinning texture is generated in the pre-deformed sample due to the activation of {10

\overline{1}

$\overline{1}$ 2} tensile twinning. During annealing, dislocation annihilation occurs between 100 and 280 °C, and recrystallization occurs above 280 °C, manifesting as the initial residual matrix and twins being competitively swallowed by each other, forming a bimodal texture. The recrystallization process is completed by boundary movement, which depends on the energy difference across the boundary. In addition, it is found that the grain boundaries favor movement towards the side with higher stored energy, regardless of the boundary type or the boundary energy.

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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.