Free vibration analysis of uniform and stepped combined paraboloidal, cylindrical and spherical shells with arbitrary boundary conditions

•Free vibration of uniform and stepped combined structures is investigated by using a semi-analytical method.•The paper presents a generalized and unified Jacobi−Ritz formulation.•The paper generalizes the selection of admissible displacement functions by using Jacobi polynomial. A semi analytical a...

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Published inInternational journal of mechanical sciences Vol. 145; pp. 64 - 82
Main Authors Li, Haichao, Pang, Fuzhen, Wang, Xueren, Du, Yuan, Chen, Hailong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2018
Subjects
Free vibration
Multi-segment partitioning strategy
Penalty method
Uniform and stepped combined paraboloidal, Cylindrical and spherical shells
Free vibration
Uniform and stepped combined paraboloidal, Cylindrical and spherical shells
Multi-segment partitioning strategy
Penalty method
Online AccessGet full text
ISSN0020-7403
1879-2162
DOI10.1016/j.ijmecsci.2018.06.021

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Abstract •Free vibration of uniform and stepped combined structures is investigated by using a semi-analytical method.•The paper presents a generalized and unified Jacobi−Ritz formulation.•The paper generalizes the selection of admissible displacement functions by using Jacobi polynomial. A semi analytical approach is employed to analyze the free vibration characteristics of uniform and stepped combined paraboloidal, cylindrical and spherical shells subject to arbitrary boundary conditions. The analytical model is established on the base of multi-segment partitioning strategy and Flügge thin shell theory. The admissible displacement functions are handled by unified Jacobi polynomials and Fourier series. In order to obtain continuous conditions and satisfy arbitrary boundary conditions, the penalty method about the spring technique is adopted. The solutions about free vibration behavior of uniform and stepped combined paraboloidal, cylindrical and spherical shells were obtained by approach of Rayleigh–Ritz. To confirm the reliability and accuracy of proposed method, convergence study and numerical verifications for combined paraboloidal, cylindrical and spherical shell with different boundary conditions, Jacobi parameters, spring parameters and maximum degree of permissible displacement function are carried out. Through comparative analyses, it is obvious that the present method has a good stable and rapid convergence property and the results of this paper agree closely with FEM. In addition, some interesting results about the geometric dimensions are investigated. [Display omitted]
AbstractList •Free vibration of uniform and stepped combined structures is investigated by using a semi-analytical method.•The paper presents a generalized and unified Jacobi−Ritz formulation.•The paper generalizes the selection of admissible displacement functions by using Jacobi polynomial. A semi analytical approach is employed to analyze the free vibration characteristics of uniform and stepped combined paraboloidal, cylindrical and spherical shells subject to arbitrary boundary conditions. The analytical model is established on the base of multi-segment partitioning strategy and Flügge thin shell theory. The admissible displacement functions are handled by unified Jacobi polynomials and Fourier series. In order to obtain continuous conditions and satisfy arbitrary boundary conditions, the penalty method about the spring technique is adopted. The solutions about free vibration behavior of uniform and stepped combined paraboloidal, cylindrical and spherical shells were obtained by approach of Rayleigh–Ritz. To confirm the reliability and accuracy of proposed method, convergence study and numerical verifications for combined paraboloidal, cylindrical and spherical shell with different boundary conditions, Jacobi parameters, spring parameters and maximum degree of permissible displacement function are carried out. Through comparative analyses, it is obvious that the present method has a good stable and rapid convergence property and the results of this paper agree closely with FEM. In addition, some interesting results about the geometric dimensions are investigated. [Display omitted]
Author Li, Haichao
Chen, Hailong
Du, Yuan
Pang, Fuzhen
Wang, Xueren
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  givenname: Fuzhen
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  organization: College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, PR China
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  fullname: Du, Yuan
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  fullname: Chen, Hailong
  organization: College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, PR China
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Keywords Free vibration
Uniform and stepped combined paraboloidal, Cylindrical and spherical shells
Multi-segment partitioning strategy
Penalty method
Language English
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Snippet •Free vibration of uniform and stepped combined structures is investigated by using a semi-analytical method.•The paper presents a generalized and unified...
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elsevier
SourceType Enrichment Source
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StartPage 64
SubjectTerms Free vibration
Multi-segment partitioning strategy
Penalty method
Uniform and stepped combined paraboloidal, Cylindrical and spherical shells
Title Free vibration analysis of uniform and stepped combined paraboloidal, cylindrical and spherical shells with arbitrary boundary conditions
URI https://dx.doi.org/10.1016/j.ijmecsci.2018.06.021
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