Microstructure refinement mechanism of Cu-7Cr in situ composites with trace Ag

Yong Liu; Shuang Shao; Kerning Liu; Xiangjie Yang; Deping Lu

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Microstructure refinement mechanism of Cu-7Cr in situ composites with trace Ag

机译：微量Ag Cu-7Cr原位复合材料的组织细化机理。

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摘要

Microstructure refinement mechanism of Cu-7Cr in situ composite with trace Ag was investigated by scanning electron microscopy (SEM), telescope electron microscope (TEM), micro hardness tester (Hv), energy dispersive spectrometer (EDS) and X-ray diffraction (XRD). The results show that the addition of trace Ag can promote the evolution from Cr filament to Cr particle, which results in the refinement of Cr filament with average thickness about 1 μm and Cr particle with average diameter about 0.8 μm in the Cu-7Cr-0.07Ag in situ composite. This microstructure refinement was discussed in the view of stacking fault energy and interaction intensity among the components with Cu, Cr and Ag elements. However, the addition of trace Ag exhibits the little effects on the texture and orientation of Cu-7Cr in situ composite.

机译：通过扫描电子显微镜（SEM），望远镜电子显微镜（TEM），显微硬度计（Hv），能谱仪（EDS）和X射线衍射仪（XRD）研究了微量Ag对Cu-7Cr原位复合材料的组织细化机理。）。结果表明，痕量Ag的加入可促进Cr丝向Cr颗粒的演化，从而导致Cu-7Cr-0.07中平均厚度约1μm的Cr丝和平均直径约0.8μm的Cr颗粒细化。 Ag原位复合材料。从堆集断层能量和铜，铬和银元素之间的相互作用强度的角度讨论了这种微观结构的改进。然而，痕量Ag的添加对Cu-7Cr原位复合材料的织构和取向几乎没有影响。

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来源
《Materials Science and Engineering 》 |2012年第1期| p.141-146| 共6页
作者
Yong Liu; Shuang Shao; Kerning Liu; Xiangjie Yang; Deping Lu;
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作者单位

Department of Materials Processing Engineering, Nanchang University, 330031 Nanchang, PR China;

Department of Materials Processing Engineering, Nanchang University, 330031 Nanchang, PR China;

Jiangxi Key Lab for Advanced Copper and Tungsten Materials, Jiangxi Academy of Sciences, Nanchang 330029, PR China;

Department of Materials Processing Engineering, Nanchang University, 330031 Nanchang, PR China;

Jiangxi Key Lab for Advanced Copper and Tungsten Materials, Jiangxi Academy of Sciences, Nanchang 330029, PR China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
cu-based in situ composite; microstructure refinement; stacking fault energy; interaction intensity;

机译：铜基原位复合材料;显微组织细化;堆积故障能量;相互作用强度;

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Microstructure refinement mechanism of Cu-7Cr in situ composites with trace Ag

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