预变形和固溶处理的协同作用：使Cu-15Sn-0.3Ti合金加工速度快，强度高

IF 7 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Science and Engineering: A Pub Date : 2025-09-22 DOI:10.1016/j.msea.2025.149160

Dazhuo Song , Juntao Zou , Zesheng Zhou , Yuchen Song , Rong Fei , Xinhang Liang , Mengyu Shan , Lin Shi , Yuxuan Wang , Zhe Zhang

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引用次数: 0

摘要

CuSnTi合金是制备Nb3Sn超导导线的主要原料。该合金需要进行长时间的固溶处理，以消除偏析，增加Sn的固溶含量，改善合金的力学性能，从而提高Nb3Sn的超导性能，但这会导致氧化、性能退化甚至成本等一系列问题。通过旋转锻造结合热处理，首次成功研制出强度为500mpa、伸长率为70%的CuSnTi合金。研究了不同旋锻变形量和固溶次数对合金组织和性能的影响。结果表明：再结晶核的形成加速了元素的扩散，从而促进了δ相的溶解，而δ相的溶解又促进了再结晶核的长大；合金力学性能的改善与晶界强化有关。本工作在节约成本、简化生产工艺的基础上提高了CuSnTi合金的性能，也为制备高性能Nb3Sn超导导线奠定了坚实的物质基础。

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Synergistic effect of predeformation and solution treatment: Enabling rapid processing and high strength in a Cu-15Sn-0.3Ti alloy

CuSnTi alloy plays a crucial role as the primary raw material in preparing Nb₃Sn superconducting wires. The alloy requires a long period of solid solution treatment to eliminate segregation, increase the Sn solid solution content and improve the properties of the alloy's mechanical properties, and thus Nb₃Sn's superconducting properties, but this will causes a series of problems such as oxidation, properties degradation, and even cost. In this work, a CuSnTi alloy with a strength of 500 MPa and an elongation of 70 % was successfully developed for the first time via rotary forging combined with heat treatment. The effects of different rotary forging deformation amounts and solution times on the microstructure and properties were studied. The results show that the formation of recrystallization nuclei accelerates the diffusion of elements, thereby promoting the dissolution of the δ phase, and this in turn promotes the growth of recrystallization nuclei. The improvement of the mechanical properties of the alloy is related to grain boundary strengthening. This work improves the properties of CuSnTi alloy on the basis of saving costs and simplifying production process, and also lays a solid material foundation for the preparation of high properties Nb₃Sn superconducting wires.

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来源期刊

Materials Science and Engineering: A 工程技术-材料科学：综合

CiteScore

11.50

自引率

15.60%

发文量

1811

审稿时长

31 days

期刊介绍： Materials Science and Engineering A provides an international medium for the publication of theoretical and experimental studies related to the load-bearing capacity of materials as influenced by their basic properties, processing history, microstructure and operating environment. Appropriate submissions to Materials Science and Engineering A should include scientific and/or engineering factors which affect the microstructure - strength relationships of materials and report the changes to mechanical behavior.