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A Brief Review of Multiaxial High-Cycle Fatigue

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Abstract

In this article, three classes of criteria (stress-strain, energy, and critical plane) used for life estimation in multiaxial high-cycle fatigue are discussed with emphasis on nonproportional loading, and the merits or demerits of each fatigue criterion are indicated. This paper also reviews mechanisms of multiaxial high-cycle fatigue, especially under nonproportional loading, and introduces studies in China on micromechanisms in high-cycle fatigue under multiaxial loading. Suggestions for further work are proposed in the conclusions.

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Authors and Affiliations

  1. Institute for Metal-Based Materials Research, School of Material Science and Engineering, Tongji University, Shanghai, People’s Republic of China

    Xiangqun Ding (Associate Professor), Guoqiu He (Professor), Chengshu Chen (Professor), Zhengyu Zhu (Ph.D Student) & Xiaoshan Liu (Ph.D Student)

  2. Shanghai Key Lab. for R&D of Metallic Functional Materials, Shanghai, 200092, People’s Republic of China

    Xiangqun Ding (Associate Professor), Guoqiu He (Professor), Chengshu Chen (Professor), Zhengyu Zhu (Ph.D Student) & Xiaoshan Liu (Ph.D Student)

  3. General Motors Corporation, Pontiac, MI, 48340, USA

    Paul N. Crepeau (Doctor)

Authors
  1. Xiangqun Ding
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  2. Guoqiu He
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  3. Chengshu Chen
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  4. Zhengyu Zhu
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  5. Xiaoshan Liu
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  6. Paul N. Crepeau
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Correspondence to Xiangqun Ding.

Additional information

This article is based on a presentation made in the symposium entitled “Simulation of Aluminum Shape Casting Processing: From Design to Mechanical Properties,” which occurred March 12–16, 2006 during the TMS Spring Meeting in San Antonio, Texas, under the auspices of the Computational Materials Science and Engineering Committee, the Process Modeling, Analysis and Control Committee, the Solidification Committee, the Mechanical Behavior of Materials Committee, and the Light Metal Division/Aluminum Committee.

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Ding, X., He, G., Chen, C. et al. A Brief Review of Multiaxial High-Cycle Fatigue. Metall Mater Trans B 38, 591–599 (2007). https://doi.org/10.1007/s11663-007-9021-x

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