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Numerical Calculation Method of Meshing Stiffness for the Beveloid Gear considering the Effect of Surface Topography

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  • Hancheng Mao
  • Yongguo Sun
  • Tiantian Xu
  • Guangbin Yu

Abstract

The tooth surfaces of beveloid gears have different topography features due to machining methods, manufacturing accuracies, and surface wear, which will affect the contact state of the tooth surface, thereby affecting time-varying mesh stiffness between mating gear pairs. Therefore, a slice grouping method was proposed in this paper on the basis of potential energy to calculate the total meshing stiffness of beveloid gears with the surface topography. The method in this paper was verified by finite element method (FEM). Compared with the calculation results of this paper, the relative error is 5.9%, which demonstrated the feasibility and accuracy of the method in this paper. Then, the influence of parameters such as pressure angle, helix angle, pitch angle, tooth width, fractal dimension, and fractal roughness on meshing stiffness was investigated, of which results show that pressure angle, pitch angle, tooth width, and fractal dimension have an incremental impact on the mean value of mesh stiffness. However, the fluctuating value of mesh stiffness has also increased as the pressure angle, tooth width, and pitch cone angle increase. Both the helix angle and the fractal roughness have a depressive impact on the total stiffness. But the difference is that, with the increase of the helix angle, the fluctuation of meshing stiffness has been decreased. Conversely, with the increase of the fractal roughness, the fluctuation of meshing stiffness has been increased.

Suggested Citation

  • Hancheng Mao & Yongguo Sun & Tiantian Xu & Guangbin Yu, 2021. "Numerical Calculation Method of Meshing Stiffness for the Beveloid Gear considering the Effect of Surface Topography," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-17, May.
  • Handle: RePEc:hin:jnlmpe:8886792
    DOI: 10.1155/2021/8886792
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    Cited by:

    1. Jianmin Wen & Haoyu Yao & Qian Yan & Bindi You, 2023. "Research on Time-Varying Meshing Stiffness of Marine Beveloid Gear System," Mathematics, MDPI, vol. 11(23), pages 1-26, November.

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