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Volume 21 Issue 6
Jun.  2014
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Kun Chen, Ke-jia Liu, Li-qun Wei, and Yi-tao Yang, Fitting function representation for strain fields and its application to the optimizing process, Int. J. Miner. Metall. Mater., 21(2014), No. 6, pp. 556-562. https://doi.org/10.1007/s12613-014-0941-6
Cite this article as:
Kun Chen, Ke-jia Liu, Li-qun Wei, and Yi-tao Yang, Fitting function representation for strain fields and its application to the optimizing process, Int. J. Miner. Metall. Mater., 21(2014), No. 6, pp. 556-562. https://doi.org/10.1007/s12613-014-0941-6
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Fitting function representation for strain fields and its application to the optimizing process

  • 通讯作者:

    Kun Chen    E-mail: chk119@sit.edu.cn

  • A fitted function method to describe the strain fields during forging was discussed to optimize the homogeneous distribution of strain in the axial forging zones during successive stretching. The results are verified by experiment and numerical simulation, and the deviations between experiment and simulation are less than 24%. Therefore, the fitted function method can be applied to optimize the stretching process for large forgings. The optimal value of feed determined by the analytic method ensures that the degree of inhomogeneity in strain in the axial ingot zone is less than 6%. This work provides a mathematic model to optimize technological parameters in stretch forging of large ingots.
  • Fitting function representation for strain fields and its application to the optimizing process

    + Author Affiliations
    • A fitted function method to describe the strain fields during forging was discussed to optimize the homogeneous distribution of strain in the axial forging zones during successive stretching. The results are verified by experiment and numerical simulation, and the deviations between experiment and simulation are less than 24%. Therefore, the fitted function method can be applied to optimize the stretching process for large forgings. The optimal value of feed determined by the analytic method ensures that the degree of inhomogeneity in strain in the axial ingot zone is less than 6%. This work provides a mathematic model to optimize technological parameters in stretch forging of large ingots.
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