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Dynamic analysis of a spatial coupled timoshenko rotating shaft with large displacements

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Abstract

The dynamic simulation is presented for an axial moving flexible rotating shafts, which have large rigid motions and small elastic deformation. The effects of the axial inertia, shear deformation, rotating inertia, gyroscopic moment, and dynamic unbalance are considered based on the Timoshenko rotating shaft theory. The equations of motion and boundary conditions are derived by Hamilton principle, and the solution is obtained by using the perturbation approach and assuming mode method. This study confirms that the influence of the axial rigid motion, shear deformation, slenderness ratio and rotating speed on the dynamic behavior of Timoshenko rotating shaft is evident, especially to a high-angular velocity rotor.

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Authors and Affiliations

  1. Department of Mechanics, Shanghai University, 200436, Shanghai, P R China

    Zhu Huai-liang Associate Professor, Doctor

Authors
  1. Zhu Huai-liang Associate Professor, Doctor
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Additional information

Communicated by CHENG Chang-jun

Foundation items: the Science Foundation of Shanghai Municipal Commission of Education (98AJ01); the Science Foundation of State Major Laboratory of Solid Mechanics of China.

Biography: ZHU Huai-liang (1956-)

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Huai-liang, Z. Dynamic analysis of a spatial coupled timoshenko rotating shaft with large displacements. Appl Math Mech 23, 1413–1420 (2002). https://doi.org/10.1007/BF02438380

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  • DOI: https://doi.org/10.1007/BF02438380

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