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首页> 外文期刊>Materials Science and Engineering >Planar dislocation structure during creep-fatigue interactions of TP347H heat-resistant austenitic steel at 600 ℃
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Planar dislocation structure during creep-fatigue interactions of TP347H heat-resistant austenitic steel at 600 ℃

机译:TP347H耐热奥氏体钢在600℃蠕变疲劳作用下的平面位错结构

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摘要

The low-cycle fatigue (LCF) and creep-fatigue (CF) interaction tests of TP347H austenitic stainless steel are carried out in air under a fully-reversed strain amplitude of 1.0% at 600 ℃. A 10 min tensile dwell is applied in CF interaction testing. The influences of dwell on dislocation structures and fracture behavior have been evaluated. It is found that CF interaction life is lower than LCF one. The fatigue fracture mode changes from transgranular crack under LCF to transgranular plus intergranular fracture with tensile dwell. A lot of dislocation planar slip bands (PSBs) were found under CF interaction condition. PSB interacts with PSB of another slip system, twins, grain boundary (GB), and triangular GB. Strongly PSB-GB interaction causes stress concentration at GB, creating cavities and crack initiation, causing intergranular fracture. The stress concentration within the PSBs will also cause cracks, resulting in transgranular fracture morphology with fatigue striation.
机译:TP347H奥氏体不锈钢的低周疲劳(LCF)和蠕变疲劳(CF)相互作用测试是在600℃的完全反向应变幅度为1.0%的空气中进行的。在CF相互作用测试中施加10分钟的拉伸停留时间。评估了停留对位错结构和断裂行为的影响。发现CF相互作用寿命低于LCF之一。疲劳断裂模式从LCF下的经晶裂纹转变为具有拉伸停留时间的经晶加晶间断裂。在CF相互作用条件下发现了许多位错平面滑带(PSBs)。 PSB与另一个滑动系统,孪晶,晶界(GB)和三角形GB的PSB交互。强烈的PSB-GB相互作用会导致应力集中在GB处,从而产生空腔和裂纹萌生,从而导致晶间断裂。 PSB内的应力集中也会引起裂纹,从而导致具有疲劳条纹的穿晶断裂形态。

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  • 来源
    《Materials Science and Engineering》 |2020年第27期|139141.1-139141.11|共11页
  • 作者

    Hongwei Zhou; Hongyan Zhang; Fengmei Bai; Meng Song; Yan Chen; Liqiang Zhang; Xudong Fang; Yizhu He;

  • 作者单位

    Key Laboratory of Green Fabrication and Surface Technology of Advanced Metal Materials (Anhui University of Technology) Ministry of Education Ma'anshan 243002 China School of Materials Science and Engineering Anhui University of Technology 243002 Anhui PR China;

    School of Metallurgical Engineering Anhui University of Technology 243002 Anhui PR China Smre Key Laboratory of Rolling and Automation Northeastern University Shenyang 110189 PR China;

    Key Laboratory of Green Fabrication and Surface Technology of Advanced Metal Materials (Anhui University of Technology) Ministry of Education Ma'anshan 243002 China Smre Key Laboratory of Rolling and Automation Northeastern University Shenyang 110189 PR China;

    School of Metallurgical Engineering Anhui University of Technology 243002 Anhui PR China;

    Stare Key Laboratory of Advanced Stainless Steel Taiyuan Iron and Steel Group Company Limited Taiyuan 030003 China;

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  • 正文语种 eng
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  • 关键词

    Heat-resistant austenitic steel; Creep-fatigue; Low cycle fatigue; Fatigue fracture mode; Planar slip structure;

    机译:耐热奥氏体钢;蠕变疲劳;低周疲劳;疲劳断裂模式;平面滑移结构;

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