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Low cycle fatigue behavior of precipitation-strengthened Cu-Cr-Zr contact wires

机译:降水强化Cu-Cr-Zr接触线的低循环疲劳行为

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摘要

The low cycle fatigue behavior (△ε_t/2 = 0.4-1.0%) of a Cu-Cr-Zr alloy strengthened with nanoscale precipitates has been tested at room temperature. The results showed that cyclic softening occurs under all △ε_t/2 after cyclic hardening. However, the Cu-Cr-Zr alloy exhibited secondary cycle hardening after a brief softening at high △ε_t/2 (0.8%, 1.0%). In strong contrast to the fatigue fracture surface at △ε_t/2 = 0.4%, △ε_t/2 = 1.0% was characterized by multiple fatigue sources and obvious fatigue striations. Moreover, a sawtooth-like feature formed and the fracture mode was mainly brittle with few regions of ductile aspects. Compared with the original characteristics, the microstructure after different values of △ε_t/2 was markedly different, and the dislocation density gradually increased with the increases of △ε_t/2.
机译:在室温下测试了用纳米级沉淀物强化的Cu-Cr-Zr合金的低循环疲劳行为(ε_t/ 2 = 0.4-1.0%)。结果表明,循环硬化后的所有△ε_t/ 2下发生循环软化。然而,Cu-Cr-Zr合金在高软化后表现出次要循环硬化,在高ε_t/ 2(0.8%,1.0%)。在fatε_t/ 2 = 0.4%的疲劳骨折表面的强对比度下,△ε_t/ 2 = 1.0%的特征在于多次疲劳来源和明显的疲劳条纹。此外,形成的锯齿状特征和裂缝模式主要是韧性方面的几个区域脆弱。与原始特性相比,△ε_t/ 2不同值的微观结构显着不同,并且随着ε_t/ 2的增加,位错密度逐渐增加。

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  • 来源
    《International Journal of Fatigue》 |2020年第8期|105642.1-105642.9|共9页
  • 作者

    Junfeng Wang; Jinshui Chen; Chengjun Guo; Xiangpeng Xiao; Hang Wang; Bin Yang;

  • 作者单位

    Faculty of Materials Metallurgy and Chemistry Jiangxi University of Science and Technology Ganzhou 341000 China;

    Faculty of Materials Metallurgy and Chemistry Jiangxi University of Science and Technology Ganzhou 341000 China;

    Faculty of Materials Metallurgy and Chemistry Jiangxi University of Science and Technology Ganzhou 341000 China;

    Faculty of Materials Metallurgy and Chemistry Jiangxi University of Science and Technology Ganzhou 341000 China Jiangxi Advanced Copper Industry Research Institute Yingtan 335000 China;

    Faculty of Materials Metallurgy and Chemistry Jiangxi University of Science and Technology Ganzhou 341000 China;

    Faculty of Materials Metallurgy and Chemistry Jiangxi University of Science and Technology Ganzhou 341000 China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Cu-Cr-Zr alloy; Low-cycle fatigue; Nanoscale precipitates; Dislocation evolution; Manson-Coffin relationship;

    机译:Cu-Cr-Zr合金;低循环疲劳;纳米级沉淀物;脱臼演变;曼森 - 棺材关系;

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