Microstructure and fatigue strength of high-strength Cu-Fe and Cu-V in-situ nanocomposite wires

Sergey A. Nikulin; Stanislav O. Rogachev; Andrey B. Rozhnov; Viktor I. Pantsyrnyi; Natalya E. Khlebova; Tatyana A. Nechaykina; Vladimir M. Khatkevich; Mikhail Yu. Zadorozhnyy

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Microstructure and fatigue strength of high-strength Cu-Fe and Cu-V in-situ nanocomposite wires

机译：高强度Cu-Fe和Cu-V原位纳米复合丝的组织和疲劳强度

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The results of the quantitative analysis of the microstructure of the Cu-Fe and Cu-V in-situ nanocomposite wires with diameter of 0.44-0.80 mm by transmission electron microscopy are presented. Comparative fatigue tests of Cu-Fe and Cu-V in-situ nanocomposite wires and pure copper samples have been carried out using a dynamic mechanical analyzer (DMA). The in-situ nanocomposites have significantly higher characteristics of low-cycle fatigue failure resistance as compared to that of pure copper. The fatigue crack propagation areas for the nanocomposite conductors and pure copper are characterized by fatigue striations and secondary cracking.

机译：给出了用透射电子显微镜对直径为0.44-0.80 mm的Cu-Fe和Cu-V原位纳米复合线的微观结构进行定量分析的结果。使用动态机械分析仪（DMA）对Cu-Fe和Cu-V原位纳米复合金属丝以及纯铜样品进行了比较疲劳测试。与纯铜相比，原位纳米复合材料具有显着更高的低周疲劳破坏耐受性。纳米复合导体和纯铜的疲劳裂纹扩展区域的特征是疲劳条纹和二次裂纹。

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来源
《Composites 》 |2015年第3期| 92-98| 共7页
作者
Sergey A. Nikulin; Stanislav O. Rogachev; Andrey B. Rozhnov; Viktor I. Pantsyrnyi; Natalya E. Khlebova; Tatyana A. Nechaykina; Vladimir M. Khatkevich; Mikhail Yu. Zadorozhnyy;
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作者单位

The National University of Science and Technology 'MISIS', Leninsky pr. 4, 119049 Moscow, Russia;

The National University of Science and Technology 'MISIS', Leninsky pr. 4, 119049 Moscow, Russia;

The National University of Science and Technology 'MISIS', Leninsky pr. 4, 119049 Moscow, Russia;

RESEARCH AND PRODUCTION COMPANY «NANOELECTRO», Co Ltd, Rogova St. 5a, 123060 Moscow, Russia;

RESEARCH AND PRODUCTION COMPANY «NANOELECTRO», Co Ltd, Rogova St. 5a, 123060 Moscow, Russia;

The National University of Science and Technology 'MISIS', Leninsky pr. 4, 119049 Moscow, Russia;

The National University of Science and Technology 'MISIS', Leninsky pr. 4, 119049 Moscow, Russia;

The National University of Science and Technology 'MISIS', Leninsky pr. 4, 119049 Moscow, Russia;

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正文语种 eng
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关键词
A. Metal-matrix composites (MMCs); B. Microstructures; B. Fatigue; D. Fractography;

机译：A.金属基复合材料（MMC）;B.微观结构;B.疲劳;D.分形;

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专利

1. Possibilities of Scanning and Transmission Electron Microscopy for Comparative Analysis of the Microstructure of In-Situ Nanocomposite High-Strength Conductors Based on a Copper Matrix and BCC-Metals [J] . Nikulin S. A., Pantsyrnyi V. I., Rozhnov A. B., Metal Science and Heat Treatment . 2016 ,第3a4期

机译：扫描和透射电子显微镜用于基于铜基体和BCC金属的原位纳米复合高强度导体微观结构比较分析的可能性
2. Possibilities of Scanning and Transmission Electron Microscopy for Comparative Analysis of the Microstructure of In-Situ Nanocomposite High-Strength Conductors Based on a Copper Matrix and BCC-Metals [J] . Nikulin S. A., Pantsyrnyi V. I., Rozhnov A. B., Metal Science and Heat Treatment . 2016 ,第3a4期

机译：扫描和透射电子显微镜的可能性，用于基于铜基质和BCC金属的原位纳米复合材料高强度导体微观结构的比较分析
3. Low-cycle bending fatigue and electrical conductivity of high-strength Cu/Nb nanocomposite wires [J] . Rozhnov A. B., Pantsyrny V. I, Kraynev A. V, International Journal of Fatigue . 2019 ,第NOVa期

机译：高强度Cu / Nb纳米复合线材的低周弯曲疲劳和电导率
4. Nondestructive In-situ Strength Analysis of High-strength Metal with Nano-size Microstructure [C] . Kojima Yuka, Kimura Hidehiko, Tsuji Kiyohito, International Symposium on Micro-NanoMechatronics and Human Science . 2007

机译：无损原位实力分析纳米尺寸微观结构的高强度金属
5. Processing, microstructures, and properties of Cu-Fe nanocomposites. [D] . He, Li. 1998

机译：Cu-Fe纳米复合材料的加工，微结构和性能。
6. Corrosion of High-Strength Steel Wires under Tensile Stress [O] . Shanglin Lv, Kefei Li, Jie Chen, 2020

机译：拉伸应力下高强度钢丝的腐蚀
7. Effects of microstructure and surface roughness on the fatigue strength of high-strength steels [O] . Lai Junbiao, Huang Hanzheng, Buising Wijbe 2016

机译：显微组织和表面粗糙度对高强度钢疲劳强度的影响

Microstructure and fatigue strength of high-strength Cu-Fe and Cu-V in-situ nanocomposite wires

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