Numerical study on fatigue damage properties of cavitation erosion for rigid metal materials

Guogang Wang, Guang Mal, Dongbai Sun, Hongying Yu, Huimin Meng

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    Guogang Wang, Guang Mal, Dongbai Sun, Hongying Yu, and Huimin Meng, Numerical study on fatigue damage properties of cavitation erosion for rigid metal materials, J. Univ. Sci. Technol. Beijing , 15(2008), No. 3, pp.261-266. https://dx.doi.org/10.1016/S1005-8850(08)60049-3
    Guogang Wang, Guang Mal, Dongbai Sun, Hongying Yu, and Huimin Meng, Numerical study on fatigue damage properties of cavitation erosion for rigid metal materials, J. Univ. Sci. Technol. Beijing , 15(2008), No. 3, pp.261-266. https://dx.doi.org/10.1016/S1005-8850(08)60049-3
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    Materials

    Numerical study on fatigue damage properties of cavitation erosion for rigid metal materials

    • School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China

    • Power Station Technology Division, China Electric Power Research Institute, Beijing 100070, China

    基金项目: 

    This study was financially supported by the National High-Tech Research and Development Program of China (No.2002AA331080) and the Beijing Important Science Technology Projects (No.H024200050021).

      通信作者:

      Dongbai Sun E-mail: dbsun@mater.ustb.edu.cn

    中文摘要

    Cavitation erosion is an especially destructive and complex phenomenon. To understand its basic mechanism, the fatigue process of materials during cavitation erosion was investigated by numerical simulation technology. The loading spectrum used was generated by a spark-discharged electrode. Initiation crack life and true stress amplitude was used to explain the cavitation failure period and damage mechanism. The computational results indicated that the components of different materials exhibited various fatigue lives under the same external conditions. When the groove depth was extended, the initiation crack life decreased rapidly, while the true stress amplitude was increased simultaneously. This gave an important explanation to the accelerating material loss rate during cavitation erosion. However, when the groove depth was fixed and the length varied, the fatigue life became complex, more fluctuant than that happened in depth. The results also indicate that the fatigue effect of cavitation plays an important role in contributing to the formation and propagation of characteristic pits.

     

    Materials

    Numerical study on fatigue damage properties of cavitation erosion for rigid metal materials

    Author Affilications

      • School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China

      • Power Station Technology Division, China Electric Power Research Institute, Beijing 100070, China

    • Funds: 

      This study was financially supported by the National High-Tech Research and Development Program of China (No.2002AA331080) and the Beijing Important Science Technology Projects (No.H024200050021).

    • Received: 25 June 2007;
    Cavitation erosion is an especially destructive and complex phenomenon. To understand its basic mechanism, the fatigue process of materials during cavitation erosion was investigated by numerical simulation technology. The loading spectrum used was generated by a spark-discharged electrode. Initiation crack life and true stress amplitude was used to explain the cavitation failure period and damage mechanism. The computational results indicated that the components of different materials exhibited various fatigue lives under the same external conditions. When the groove depth was extended, the initiation crack life decreased rapidly, while the true stress amplitude was increased simultaneously. This gave an important explanation to the accelerating material loss rate during cavitation erosion. However, when the groove depth was fixed and the length varied, the fatigue life became complex, more fluctuant than that happened in depth. The results also indicate that the fatigue effect of cavitation plays an important role in contributing to the formation and propagation of characteristic pits.

     

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