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Superconductivity under uniaxial tensile strain on internal reinforced NbsSn multifilamentary wire using Cu-Sn-Zn ternary alloy matrix

机译：使用Cu-Sn-Zn三元合金基质在内部加强NBSSN多丝线下的单轴拉伸应变下的超导性

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The degradations of superconducting properties by mechanical strain on actual Nb3Sn wire are a serious problem for the future fusion magnets operated under high electromagnetic force. Recently, we succeeded to fabricate Cu-Sn-Zn ternary alloy matrix, which is high strength alloy by the Zn solid solution strengthening, based on the internal reinforced bronze process in order to investigate the mechanical strength improvement. In this study, the upper critical magnetic field (H_(c2)) under uniaxial tensile deformation on several bronze-processed Nb3Sn multifilamentary wires were evaluated. We confirmed that the peak tensile strain values, which obtained maximum H_(c2) under uniaxial tensile deformation, were shifted to higher tensile strain region with increasing amount of Zn composition in the Cu-Sn-Zn ternary alloy matrix. The internal reinforced bronze matrix via solid solution strengthening would become attractive and simple method without reinforcement material.

机译：通过实际NB3SN线上的机械应变通过机械菌株降低超导性能是在高电磁力下操作的未来融合磁体的严重问题。最近，我们成功地制造了Cu-Sn-Zn三元合金基质，通过Zn固溶机构加强强度合金，基于内部加强的青铜过程，以研究机械强度改善。在该研究中，评估了几种青铜处理的NB3SN多丝线上的单轴拉伸变形下的上临界磁场（H_（C2））。我们证实，在Cu-Sn-Zn三元合金基质中，在单轴拉伸变形下获得最大H_（C2）的峰张力应变值，其在高Zn-Sn-Zn三元合金基质中随着Zn组合物的增加而转移到更高的拉伸应变区。通过固体溶液强化的内部增强青铜基质将变得具有吸引力和简单的方法，无需增强材料。

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《International Cryogenics Engineering Conference》|2019年|522-1057 p.|共5页
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Yoshimitsu Hishinuma; Hidetoshi Oguro; Hiroyasu Taniguchi;
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中图分类工程材料学;
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专利

1. Development of the bronze processed Nb3Sn multifilamentary wires using Cu-Sn-Zn ternary alloy matrix [J] . Hishinuma Yoshimitsu, Oguro Hidetoshi, Taniguchi Hiroyasu, Fusion Engineering and Design . 2017,第nova期

机译：Cu-Sn-Zn三元合金基体开发青铜处理的Nb3Sn复丝
2. Development of the internal matrix reinforcement bronze processed Nb_3Sn multicore wires using Cu-Sn-In ternary alloy matrix for fusion magnet application [J] . Hishinuma Yoshimitsu, Taniguchi Hiroyasu, Kikuchi Akihiro Fusion Engineering and Design . 2019,第Nova期

机译：使用Cu-Sn-In三元合金基体开发内部基体增强青铜处理的Nb_3Sn多芯线，用于融合磁体应用
3. Numerical analysis to study the tensile behaviour of a spring-steel-wire-reinforced aluminium alloy metal matrix composite [J] . Merzkirch Matthias, Meissner Marius, Schulze Volker, Journal of Composite Materials . 2015,第21期

机译：弹簧钢丝增强铝合金金属基复合材料拉伸性能的数值分析
4. Superconductivity under uniaxial tensile strain on internal reinforced NbsSn multifilamentary wire using Cu-Sn-Zn ternary alloy matrix [C] . Yoshimitsu Hishinuma, Hidetoshi Oguro, Hiroyasu Taniguchi International Cryogenics Engineering Conference . 2019

机译：使用Cu-Sn-Zn三元合金基质在内部加强NBSSN多丝线下的单轴拉伸应变下的超导性
5. THE USE OF MECHANICAL ALLOYING IN THE MANUFACTURE OF MULTIFILAMENTARY SUPERCONDUCTOR WIRE. [D] . WHITE, RICHARD LONGSTRETH. 1980

机译：机械合金在多丝超导体电线制造中的使用。
6. Microstructure and Tensile Properties of Graphene-Oxide-Reinforced High-Temperature Titanium-Alloy-Matrix Composites [O] . Hang Chen, Guangbao Mi, Peijie Li, 2020

机译：石墨烯氧化物增强高温钛合金 - 合金基复合材料的微观结构和拉伸性能
7. Bronze Processed Nb₃Sn Multifilamentary Wires Using Various Cu-Sn-Zn Solid Solution Strengthened Bronze Alloy Matrices [O] . Yoshimitsu Hishinuma, Hiroyasu Taniguchi, Akihiro Kikuchi 2016

机译：使用各种Cu-Sn-Zn固体溶液强化青铜合金基质，青铜处理Nb _{3 Sn多丝网}
8. Critical Current Densities of Alloyed Multifilamentary Nb sub 3 Sn Wires by the Internal Tin Process [R] . Suenaga, M. 1987

机译：内锡工艺合金复丝Nb sub 3 sn导线的临界电流密度

Superconductivity under uniaxial tensile strain on internal reinforced NbsSn multifilamentary wire using Cu-Sn-Zn ternary alloy matrix

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