Variable fractional modeling and vibration analysis of variable-thickness viscoelastic circular plate

•Variable thickness viscoelastic circular plate is modeled by variable fractional model at the first time.•Shifted Chebyshev polynomials algorithm solves ternary government equation of the plate accurately in the time domain.•Convergence analysis proves the applicability of proposed algorithm.•Numer...

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Vydáno v:Applied mathematical modelling Ročník 110; s. 767 - 778
Hlavní autoři: Dang, Rongqi, Cui, Yuhuan, Qu, Jingguo, Yang, Aimin, Chen, Yiming
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.10.2022
Témata:
Numerical solutions
SCPs algorithm
Variable fractional derivative model
Variable-thickness viscoelastic circular plate
SCPs algorithm
Variable-thickness viscoelastic circular plate
Variable fractional derivative model
Numerical solutions
ISSN:0307-904X
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Shrnutí:•Variable thickness viscoelastic circular plate is modeled by variable fractional model at the first time.•Shifted Chebyshev polynomials algorithm solves ternary government equation of the plate accurately in the time domain.•Convergence analysis proves the applicability of proposed algorithm.•Numerical examples prove the correctness and sensitivity of proposed model and algorithm.•Vibration of the plate can be reduced by increasing thickness, reducing area or strengthening restraint. In this paper, a variable fractional derivative model (VFDM) is used to model the viscoelastic circular plate whose thickness varies exponentially. Based on the VFDM, a ternary variable fractional differential equation of viscoelastic circular plate is established. The shifted Chebyshev polynomials (SCPs) algorithm is introduced to numerically solve the complex equation directly in time domain. The effectiveness of proposed SCPs algorithm is verified by convergence analysis. Then the dynamic responses of viscoelastic circular plate are researched under different loads, radius, thickness parameters, boundary conditions and viscoelastic materials by SCPs algorithm. The displacement of circular plate increases with the increasing load. The vibration can be reduced by increasing the thickness of plate, reducing plate area or strengthening the restraint on plate. The bending resistance of polyethylene terephthalate (PET) plate is better than polyurea. These results are consistent with the results of literatures. Therefore, the proposed model and algorithm are correct and sensitive in the numerical simulation of viscoelastic circular plate with different conditions.
ISSN:0307-904X
DOI:10.1016/j.apm.2022.06.008