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Geomechanics and Engineering
  Volume 36, Number 2, January25 2024 , pages 99-109
DOI: https://doi.org/10.12989/gae.2024.36.2.099
 


Nonlinear forced vibration of axially moving functionally graded cylindrical shells under hygro-thermal loads
Jin-Peng Song, Gui-Lin She and Yu-Jie He

 
Abstract
    Studying the dynamic behavior of axially moving cylindrical shells in hygro-thermal environments has important theoretical and engineering value for aircraft design. Therefore, in this paper, considering hygro-thermal effect, the nonlinear forced vibration of an axially moving cylindrical shell made of functionally graded materials (FGM) is studied. It is assumed that the material properties vary continuously along the thickness and contain pores. The Donnell thin shell theory is used to derive the motion equations of FGM cylindrical shells with hygro-thermal loads. Under the four sides clamped (CCCC) boundary conditions, the Gallekin method and multi-scale method are used for nonlinear analysis. The effects of power law index, porosity coefficient, temperature rise, moisture concentration, axial velocity, prestress, damping and external excitation amplitude on nonlinear forced vibration are explored through parametric research. It can be found that, the changes in temperature and humidity have a significant effect. Increasing in temperature and humidity will cause the resonance position to shift to the left and increase the resonance amplitude.
 
Key Words
    axial motion; FGM cylindrical shell; Hygro-thermal load; nonlinear forced vibration; the multi-scale method
 
Address
Jin-Peng Song, Gui-Lin She and Yu-Jie He: College of Mechanical and Vehicle Engineering, Chongqing University, Chongqing 400044, China
 

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