Cyclic Deformation and Low Cycle Fatigue Behavior in a SiCw/6061Al Composite at Elevated Temperature

Lei Wang; Z. M. Sun; T. Kobayashi; H. Toda

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Cyclic Deformation and Low Cycle Fatigue Behavior in a SiCw/6061Al Composite at Elevated Temperature

机译：SiCw / 6061Al复合材料在高温下的循环变形和低周疲劳行为

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The cyclic deformation and low cycle fatigue behavior of a SiC whisker reinforced 6061 aluminum alloy matrix composite were investigated at elevated temperatures with total strain controlled method. TEM and SEM were used to examine the microstructure and fracture surfaces of the specimens. The mechanical test results demonstrated that the composite materials maintained initial cyclic hardening at the elevated temperature. The fatigue resistance to cyclic strain of the composite was found to be inferior to that of the matrix material in the total strain controlled testing, while the composite material showed superior fatigue strength in the low cycle fatigue region within the temperature range in the present research. The fatigue failure of the composite is believed to be caused by a mechanism of nucleation, growth and coalescence of voids.

机译：采用全应变控制方法研究了SiC晶须增强的6061铝合金基复合材料在高温下的循环变形和低周疲劳行为。用TEM和SEM检查样品的微观结构和断裂表面。力学测试结果表明，复合材料在高温下保持了初始循环硬化。在总应变控制测试中，发现复合材料的抗循环应变性能逊于基体材料，而在本研究中，该复合材料在低周疲劳区域内显示出优异的疲劳强度。据信复合材料的疲劳破坏是由空洞的成核，生长和聚结机制引起的。

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来源
《Materials Transactions, JIM》 |1996年第10期|p.1561-1567|共7页
作者
Lei Wang; Z. M. Sun; T. Kobayashi; H. Toda;
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作者单位

Department of Production Systems Engineering, Toyohashi University of Technology, Tempaku-cho, Toyohashi 441, Japan;

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原文格式 PDF
正文语种 eng
中图分类金属材料;工程材料学;
关键词
metal-matrix composite; SiCw/6061Al; cyclic deformation; low cycle fatigue; elevated temperature; fatigue strength;

机译：金属基复合材料;SiCw / 6061Al;循环变形;低周疲劳;高温;疲劳强度;

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1. Cyclic Deformation and Low Cycle Fatigue Behavior in a SiCw/6061A1 Composite at Elevated Temperature [J] . Wang L., Sun Z.M. Materials transactions . 1996,第10期

机译：SiCw / 6061A1复合材料在高温下的循环变形和低周疲劳行为
2. Monotonic and cyclic deformation behavior of a SiCw/6061Al composite at elevated temperature [J] . Lei Wang, Z. M. Sun, T. Kobayashi Scripta materialia . 1996,第8期

机译：SiCw / 6061Al复合材料在高温下的单调和循环变形行为
3. Cyclic Deformation and Low Cycle Fatigue Behavior in a 6061Al/22vol% SiC Whisker Composite [J] . L. Wang, Z. M. Sun, T. Kobayashi, Materials Transactions, JIM . 1996,第4期

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4. LOW CYCLE FATIGUE OF 9-12 CR STEEL AT ELEVATED TEMPERATURE: CYCLIC DEFORMATION BEHAVIOR AND LIFE ASSESSMENT [C] . Peng Zhao, Fu-Zhen Xuan, De-Long Wu ASME turbo expo: turbine technical conference and exposition . 2016

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5. Fatigue behavior of ceramic matrix composites at elevated temperatures under cyclic loading. [D] . Elahi, Mehran. 1996

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6. Comparisons of Damage Evolution between 2D C/SiC and SiC/SiC Ceramic-Matrix Composites under Tension-Tension Cyclic Fatigue Loading at Room and Elevated Temperatures [O] . Longbiao Li 2016

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7. Low cycle fatigue behavior of Ni-Cr lamellar eutectic composites at elevated temperatures [O] . M. Doner, J. C. DiPrimio, E. I. Salkovitz 1974

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8. Low-Cycle Fatigue and Cyclic Deformation Behavior of Type 16-8-2 Weld Metal at Elevated Temperature [R] . Raske, D. T. 1977

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Cyclic Deformation and Low Cycle Fatigue Behavior in a SiCw/6061Al Composite at Elevated Temperature

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