Microstructural and Textural Evolution of a Zr-Sn-Nb-Fe Alloy Tube During Cold Pilger Rolling

IF 3.3 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Metals and Materials International Pub Date : 2024-09-09 DOI:10.1007/s12540-024-01799-2
Xufeng Wang, Jun Zhou, Yuanzhuo Liu, Linjiang Chai, Yue Liu, Haiqin Zhang, Haiming Liu, Bin Tang, Xiangyi Xue, Jinshan Li
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Abstract

In this study, a cold-pilgered Zr alloy tube with the composition of Zr-1.0 wt%Sn-1.0 wt%Nb-0.3 wt%Fe was investigated. During the cold pilgering, the tube developed distinct microstructural and textural features at different positions (with varying internal/external diameters and wall thicknesses) due to their specific stress states and deformation amount. Microstructural and textural evolution during cold pilgering were analyzed by characterizing specimens (S0-S4) cut from typical tube positions mainly using electron channeling contrast imaging and electron backscatter diffraction techniques. Transmission electron microscopy was also utilized to reveal typical precipitates in the un-pilgered specimen (S0). Results indicate that at low/medium strains, there exist non-deformation grains with hard orientations in the pilgered tube specimens, leading to heterogeneous microstructures. With increasing strains, the tube specimens show continuously reduced grain sizes and increased kernel average misorientations along with higher fractions of low angle boundaries, resulting in enhanced microstructural homogeneity. During the pilgering, the texture of Zr-1.0Sn-1.0Nb-0.3Fe alloy tube gradually transforms from initial c//TD to c//RD, which changes back to the c//TD at high strains (>∼ 60%). In the meantime, the < 10–10>//AD component is initially weakened slightly but then significantly enhanced, while there is an opposite trend for that of the < 11–20>//AD component. According to the analysis of in-grain misorientation axes, the textural evolution during the pilgering results from the coordination of multiple slip systems and the pyramidal slip can be substantially activated at a high strain.

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冷皮尔格轧制过程中 Zr-Sn-Nb-Fe 合金管的微结构和纹理演变
本研究对成分为 Zr-1.0 wt%Sn-1.0 wt%Nb-0.3 wt%Fe 的冷拉锆合金管进行了研究。在冷拉过程中,由于其特定的应力状态和变形量,管材在不同位置(内径/外径和壁厚不同)形成了不同的微观结构和纹理特征。我们主要利用电子通道对比成像和电子反向散射衍射技术,对从典型管材位置切割的试样(S0-S4)进行了表征,从而分析了冷扎过程中的微观结构和纹理演变。此外,还利用透射电子显微镜揭示了未拉丝试样(S0)中的典型沉淀物。结果表明,在低/中应变下,有栅栏管试样中存在硬取向的非变形晶粒,从而形成异质微观结构。随着应变的增加,管状试样的晶粒大小不断减小,晶核平均错误取向不断增加,低角度边界的比例也越来越高,从而提高了微观结构的均匀性。在拉伸过程中,Zr-1.0Sn-1.0Nb-0.3Fe 合金管的纹理从最初的 c//TD 逐渐转变为 c//RD,在高应变(>∼ 60%)时又变回 c//TD。同时,< 10-10>//AD分量最初略有减弱,但随后明显增强,而< 11-20>//AD分量的趋势则相反。根据晶粒内错向轴的分析,拉伸过程中的纹理演变是多种滑移系统协调作用的结果,金字塔滑移在高应变时会被大幅激活。
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来源期刊
Metals and Materials International
Metals and Materials International 工程技术-材料科学:综合
CiteScore
7.10
自引率
8.60%
发文量
197
审稿时长
3.7 months
期刊介绍: Metals and Materials International publishes original papers and occasional critical reviews on all aspects of research and technology in materials engineering: physical metallurgy, materials science, and processing of metals and other materials. Emphasis is placed on those aspects of the science of materials that are concerned with the relationships among the processing, structure and properties (mechanical, chemical, electrical, electrochemical, magnetic and optical) of materials. Aspects of processing include the melting, casting, and fabrication with the thermodynamics, kinetics and modeling.
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