张嘉振
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教授
- 性别 : 男
- 毕业院校 : 未同步
- 学历 : 博士研究生毕业
- 学位 : 博士学位
- 在职信息 : 在岗
- 所在单位 : 工学院
- 办公地点 : 31幢404
- Email : 041fbe42a26b1aabcf5c93311a2b4feb35610d6d064b335f1e4a9f99122dfe86ab1697507f90c5a498fa69832106580d55654cecc36552dc4d783d3c08a114175595a00f6421e5de562b0ca32e108f913fc29e9429b46fdeb9342e8e31e04f09b09aa75abaa6d51c5df94268bb78574a100ff88f57f428ebe6c31fef687af96b
访问量 :
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[1] J. Zhang(张嘉振), X.D. He , Y. Sha , S.Y. Du. “The compressive stress effect on fatigue crack growth under tension–compression loading”. International Journal of Fatigue,2010,32:361–367.
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[2] J. Zhang(张嘉振), X.D He , Y. Sha , S.Y. Du. “The compressive stress effect on fatigue crack growth under tension–compression loading”. International Journal of Fatigue,2010,32:361–367.
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[3] Bai S , Sha Y , Zhang J(张嘉振) . “The effect of compression loading on fatigue crack propagation after a single tensile overload at negative stress ratios”. International Journal of Fatigue, 2018, 110:162-171.
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[4] Jipeng Zhang, Yue Wang, Jiazhen Zhang(张嘉振), Zhengong Zhou, Guodong Fang, Yuan Zhao, Shiming Zu. Characterizing the Off-Axis Dependence of Failure Mechanism in Notched Fiber Metal Laminates[J]. Composite Structures, 2018, 185: 148-160.
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[5] Wang Y, Zhang J, Zhang J(张嘉振), Zhou Z, Fang G, Wang S. Compressive behavior of notched and unnotched carbon woven-ply PPS thermoplastic laminates at different temperatures[J]. Composites Part B: Engineering. 2018; 133: 68-77.
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[6] Zhao Y, Alderliesten R, Wu ZW, Zhou ZG, Fang GD*, Zhang JZ(张嘉振), Benedictus R. Determining finite-width-correction factors for fatigue crack growth prediction in GLARE using the equivalent compliance method. International Journal of Fatigue, 2019,127:74-81.
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[7] Zhang J Z(张嘉振), X.D.He and S.Y.Du..“Analyses of the fatigue crack propagation process and stress ratio effects using the two parameter method”. International Journal of Fatigue,2005,27(10-12): 1314-1318.
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[8] Zhang J Z, (张嘉振) He X D, Tang H, et al..“Direct high resolution in situ SEM observations of small fatigue crack opening profiles in the ultra-fine grain aluminium alloy”. Materials Science & Engineering A, 2008, 485(1-2):115-118.
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[9] Zhang J Z, (张嘉振) Zhang J Z, Meng Z X..“Direct high resolution in situ SEM observations of very small fatigue crack growth in the ultra-fine grain aluminium alloy IN 9052”.Scripta Materialia, 2004, 50(6):825-828.
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[10] J. Zhang; X.D. He; S.Y. Du ;.Analyses of the fatigue crack propagation process and stress ratio effects using the two parameter method, INTERNATIONAL JOURNAL OF FATIGUE, 2005, 27(10-12): 1314-1318
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[11] J.Z. Zhang.A shear band decohesion model for small fatigue crack growth in an ultra-®ne grain aluminium alloy, Engineering Fracture Mechanics, 1999, 65(2000): 665-681
