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Achieving ultrahigh tensile strength of 1 GPa in a hierarchical nanostructured 2024 Al alloy

机译:在等级纳米结构2024 Al合金中实现1GPa的超高拉伸强度

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摘要

A novel hierarchical nanostructure consisting of nanoscale grains (~115 nm), subgrains (~36 nm), needle-shaped S'/S precipitates (Al_2CuMg, 6-16 nm in length) in grains and extremely fine oxide dispersions has been realized in a commercial Al-Cu-Mg alloy fabricated by high pressure torsion followed by natural aging using pre-sintered powders. The multiple strengthening effects of the hierarchical nanostructure including the grain boundary hardening by nano-sized grains/subgrains and the secondary phase strengthening by the nanoscale oxide particles and S'/S precipitates result in an ultra-high tensile strength approaching 1 GPa, which largely expands the known limit of strength for Al-Cu-Mg alloys. This work provides an effective pathway of designing super-strong Al alloys.
机译:由纳米级颗粒(〜115nm),子粒子(〜36nm),针状S'/ s沉淀(Al_2cumg,6-16nm的长度)组成的新型等级纳米结构已经实现了晶粒和极细氧化物分散体的沉淀物(Al_2cumg,6-16nm)使用预烧结粉末的高压扭转制造的商业Al-Cu-Mg合金,然后是天然老化。包括纳米晶粒/亚氧化物和纳米级氧化物颗粒和S'/ s沉淀物的晶粒边界硬化的分层纳米结构的多重强化效应和纳米级氧化物颗粒和S'/ S沉淀的二次相位产生的超高拉伸强度接近1GPa,这在很大程度上扩大了Al-Cu-Mg合金的已知强度极限。这项工作提供了设计超强铝合金的有效途径。

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  • 来源
    《Materials Science and Engineering》 |2020年第24期|139576.1-139576.7|共7页
  • 作者

    Maowen Liu; Ruixiao Zheng; Jin Li; Chaoli Ma;

  • 作者单位

    Key Laboratory of Aerospace Advanced Materials and Performance of Ministry of Education School of Materials Science and Engineering Beihang University Beijing 100191 China;

    Key Laboratory of Aerospace Advanced Materials and Performance of Ministry of Education School of Materials Science and Engineering Beihang University Beijing 100191 China;

    Key Laboratory of Aerospace Advanced Materials and Performance of Ministry of Education School of Materials Science and Engineering Beihang University Beijing 100191 China;

    Key Laboratory of Aerospace Advanced Materials and Performance of Ministry of Education School of Materials Science and Engineering Beihang University Beijing 100191 China;

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  • 正文语种 eng
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  • 关键词

    Al-Cu-Mg alloy Powder; High pressure torsion; Hierarchical nanostructure; Tensile strength;

    机译:Al-Cu-Mg合金粉;高压扭转;分层纳米结构;抗拉强度;

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