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This thesis presents the first-known exact solutions for vibration of stepped circular Mindlin plates. The considered circular plate is of several step-wise variation in thickness in the radial direction. The Mindlin first order shear deformable plate theory is employed to derive the governing differential equations for the annular and circular segments. The exact solutions to these differential equations may be expressed in terms of the Bessel functions of the first and second kinds and the modified Bessel functions of the first and second kinds. The governing homogenous system of equations is assembled by implementing the essential and natural boundary conditions and the segment interface conditions. Vibration solutions are presented for ...
Free vibration of circular plates of arbitrary thickness is investigated using the method of initial...
A series solution for the transverse vibration of Mindlin rectangular plates with elastic point supp...
Based on the Flügge thin shell theory, this paper presents exact solutions for the vibration of cir...
This paper presents the first-known investigation on exact vibration of circular Mindlin plates with...
This paper presents an analytical approach to investigate the vibration behaviour of circular Mindli...
This paper studies the vibration behaviour of circular Mindlin plates with multiple concentric elast...
The first-known investigation is reported for free vibration of circular and annular Mindlin plates ...
This paper presents the first-known exact solutions for buckling and vibration of stepped rectangula...
Abstract A new two-eigenfunctions theory, using the amplitude deflection and the generalized curvatu...
Closed-form solutions for the vibration problem of initially stressed thick rectangular plates as de...
For the first time to the authors' knowledge, the problem of free vibration of a moderately thick re...
This paper presents an analysis of free flexural vibration of circular and annular Mindlin plates ly...
Benchmark vibration solutions for thick polygonal plates of arbitrary boundary conditions are presen...
This paper presents the first-known exact solutions for the vibration of multi-span rectangular Mind...
The purpose of this work is the introduction to the theory of Bessel differential equation and Besse...
Free vibration of circular plates of arbitrary thickness is investigated using the method of initial...
A series solution for the transverse vibration of Mindlin rectangular plates with elastic point supp...
Based on the Flügge thin shell theory, this paper presents exact solutions for the vibration of cir...
This paper presents the first-known investigation on exact vibration of circular Mindlin plates with...
This paper presents an analytical approach to investigate the vibration behaviour of circular Mindli...
This paper studies the vibration behaviour of circular Mindlin plates with multiple concentric elast...
The first-known investigation is reported for free vibration of circular and annular Mindlin plates ...
This paper presents the first-known exact solutions for buckling and vibration of stepped rectangula...
Abstract A new two-eigenfunctions theory, using the amplitude deflection and the generalized curvatu...
Closed-form solutions for the vibration problem of initially stressed thick rectangular plates as de...
For the first time to the authors' knowledge, the problem of free vibration of a moderately thick re...
This paper presents an analysis of free flexural vibration of circular and annular Mindlin plates ly...
Benchmark vibration solutions for thick polygonal plates of arbitrary boundary conditions are presen...
This paper presents the first-known exact solutions for the vibration of multi-span rectangular Mind...
The purpose of this work is the introduction to the theory of Bessel differential equation and Besse...
Free vibration of circular plates of arbitrary thickness is investigated using the method of initial...
A series solution for the transverse vibration of Mindlin rectangular plates with elastic point supp...
Based on the Flügge thin shell theory, this paper presents exact solutions for the vibration of cir...
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