Accurate free vibration analysis of rhombic plates with simply-supported and fully-clamped edge conditions

In this paper attention is focused on the free-vibration analysis of rectangular plates with combinations of clamped and simply supported edge conditions. Plates with at least two opposite edges simply supported are not considered as they have been analyzed in a separate paper. It is well known that the family of problems considered here have presented researchers with a formidable challenge over the years. This is because they are not directly amenable to Le´vy-type solutions. It has been pointed out in the literature that most of the existing solutions are approximate in that they either do not satisfy exactly the governing differential equation or the boundary conditions, or both. In a new approach taken by the author the method of superposition is exploited for handling these dynamic problems. It is found that solutions of any degree of exactitude are easily obtained. The governing differential equation is completely satisfied and the boundary conditions are satisfied to any degree of exactitude by merely increasing the number of terms in the series. Convergence is shown to be remarkably rapid and tabulated results are provided for a large range of parameters. The immediate applicability of the method to problems involving elastic restraint or inertia forces along the plate edges has been discussed in an earlier publication.

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Exact Solutions for Free-Vibration Analysis of Rectangular Plates Using Bessel Functions

Journal of Applied Mechanics ◽

10.1115/1.2744043 ◽

2005 ◽

Vol 74 (6) ◽

pp. 1247-1251 ◽

Cited By ~ 28

Author(s):

Jiu Hui Wu ◽

A. Q. Liu ◽

H. L. Chen

Keyword(s):

Differential Equation ◽

Free Vibration ◽

Exact Solutions ◽

Thin Plate ◽

Vibration Analysis ◽

Bessel Functions ◽

Free Vibration Analysis ◽

Rectangular Plates ◽

Simply Supported ◽

Edge Conditions

A novel Bessel function method is proposed to obtain the exact solutions for the free-vibration analysis of rectangular thin plates with three edge conditions: (i) fully simply supported; (ii) fully clamped, and (iii) two opposite edges simply supported and the other two edges clamped. Because Bessel functions satisfy the biharmonic differential equation of solid thin plate, the basic idea of the method is to superpose different Bessel functions to satisfy the edge conditions such that the governing differential equation and the boundary conditions of the thin plate are exactly satisfied. It is shown that the proposed method provides simple, direct, and highly accurate solutions for this family of problems. Examples are demonstrated by calculating the natural frequencies and the vibration modes for a square plate with all edges simply supported and clamped.

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Free vibration analysis of simply-supported graphene platelets reinforced laminated piezoelectric cylindrical micro-shells

International Journal for Computational Methods in Engineering Science and Mechanics ◽

10.1080/15502287.2021.2000065 ◽

2021 ◽

pp. 1-14

Author(s):

Fatemeh Abbaspour

Keyword(s):

Free Vibration ◽

Vibration Analysis ◽

Free Vibration Analysis ◽

Simply Supported ◽

Graphene Platelets

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Free Vibration Analysis of Simply Supported Power Law Functionally Graded Beam Using Finite Element Method

Al-Furat Journal of Innovations in Mechanical and Sustainable Energy Engineering ◽

10.52262/150121-03 ◽

2021 ◽

Vol 1 (1) ◽

pp. 24

Author(s):

Zainab Abbood ◽

Luay S. AlAnsari

Keyword(s):

Finite Element Method ◽

Finite Element ◽

Free Vibration ◽

Power Law ◽

Vibration Analysis ◽

Free Vibration Analysis ◽

Functionally Graded ◽

Functionally Graded Beam ◽

Simply Supported ◽

Element Method

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Free Vibration Analysis of Thick Isotropic Plate by Using 5th Order Shear Deformation Theory

Progress in Civil and Structural Engineering ◽

10.38208/pcse.v1i1.2 ◽

2021 ◽

pp. 1-11

Author(s):

Param D. Gajbhiye ◽

Vishisht Bhaiya ◽

Yuwaraj M. Ghugal

Keyword(s):

Free Vibration ◽

Shear Deformation ◽

Vibration Analysis ◽

Deformation Theory ◽

Shear Deformation Theory ◽

Free Vibration Analysis ◽

Shear Mode ◽

Simply Supported ◽

Isotropic Plates ◽

Thickness Shear

In the present study, a 5th order shear deformation theory (5th OSDT) is presented for free vibration analysis of simply supported thick isotropic plates. Governing equations and boundary conditions are evaluated using the concept of virtual work. Numerical results for free vibration analysis include the effects of side to thickness and plate aspect ratios for simply supported thick isotropic plates. Non-dimensional bending mode frequencies, non-dimensional thickness shear mode frequencies and non-dimensional thickness stretch mode frequencies are obtained. Closed form analytical solutions for simply supported isotropic thick plates subjected to single sinusoidal distributed loads are obtained for comparison purpose. The problems considered in this study are solved using MATLAB software. Non-dimensional bending frequencies and non-dimensional thickness shear mode frequencies obtained through the 5th OSDT match well with the exact analytical and exponential shear deformation theory (ESDT) results. Further, the non-dimensional thickness stretch mode frequencies are found to be imaginary.

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Transverse Free Vibration Analysis of Buried Pipeline under Simply Supported Restraint

Advanced Materials Research ◽

10.4028/scientific5/amr.446-449.2210 ◽

2012 ◽

Vol 446-449 ◽

pp. 2210-2213

Author(s):

Ting Yue Hao

Keyword(s):

Free Vibration ◽

Vibration Analysis ◽

Free Vibration Analysis ◽

Buried Pipeline ◽

Simply Supported

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Free Vibration Analysis of Composite Material Plates "Case of a Typical Functionally Graded FG Plates Ceramic/Metal" with Porosities

Nano Hybrids and Composites ◽

10.4028/www.scientific.net/nhc.25.69 ◽

2019 ◽

Vol 25 ◽

pp. 69-83 ◽

Cited By ~ 2

Author(s):

Slimane Merdaci

Keyword(s):

Free Vibration ◽

Shear Deformation ◽

Vibration Analysis ◽

Equations Of Motion ◽

Porous Plate ◽

Shear Deformation Theory ◽

Free Vibration Analysis ◽

Functionally Graded ◽

Simply Supported ◽

Fg Plates

This article presents the free vibration analysis of simply supported plate FG porous using a high order shear deformation theory. In is work the material properties of the porous plate FG vary across the thickness. The proposed theory contains four unknowns unlike the other theories which contain five unknowns. This theory has a parabolic shear deformation distribution across the thickness. So it is useless to use the shear correction factors. The Hamilton's principle will be used herein to determine the equations of motion. Since, the plate are simply supported the Navier procedure will be retained. To show the precision of this model, several comparisons have been made between the present results and those of existing theories in the literature for non-porous plates. Effects of the exponent graded and porosity factors are investigated.

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