Comparisons of vibration frequencies for rods and beams from one-dimensional and three-dimensional analyses

Leissa, A. W.; So, Jinyoung

doi:10.1121/1.414331

Cited by 71 publications

(40 citation statements)

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“…Dirichlet or Neumann), various approximate methods of solutions have been developed. There exists on one hand analytical solutions based on expansion in terms of Bessel functions [8,9] where part of the boundary conditions are satisfied approximately, and on the other hand numerical solutions such as the Ritz method [10,11,12,13] or the finite element method [14]. These works using approximate methods concentrate mainly on eigenfrequency analyzes.…”

Section: Introductionmentioning

confidence: 99%

A hierarchy of dynamic equations for solid isotropic circular cylinders

Abadikhah

Folkow

2014

Wave Motion

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This work considers homogeneous isotropic circular cylinders adopting a power series expansion method in the radial coordinate. Equations of motion together with consistent sets of end boundary conditions are derived in a systematic fashion up to arbitrary order using a generalized Hamilton's principle. Time domain partial differential equations are obtained for longitudinal, torsional, and flexural modes, where these equations are asymptotically correct to all studied orders. Numerical examples are presented for different sorts of problems, using exact theory, the present series expansion theories of different order, and various classical theories. These results cover dispersion curves, eigenfrequencies and the corresponding displacement and stress distributions, as well as fix frequency motion due to prescribed end displacement or lateral distributed forces. The results illustrate that the present approach may render benchmark solutions provided higher order truncations are used, and act as engineering cylinder equations using low order truncation.

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Section: Introductionmentioning

confidence: 99%

A hierarchy of dynamic equations for solid isotropic circular cylinders

Abadikhah

Folkow

2014

Wave Motion

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“…B) Each of the frequencies shown in Table 1, third row, is smaller than those shown in Table II of Leissa and So (1995a) for the same number of analogous terms. Hence the introduction of the added terms improves the calculation of the natural frequencies of vibration of a short cylinder.…”

Section: Consequences Of the Comparisonmentioning

confidence: 96%

Study of pure transverse motion in free cylinders and plates in flexural vibration by Ritz’s method

Bayón

Gascón

Ferro

et al. 2011

European Journal of Mechanics - A/Solids

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“…Hutchinson [6,7] studied the vibration of a completely free prism with circular cross-section and compared his 3-D solutions with the approximate 1-D solutions [8]. Such a prism was also studied by Leissa and So [9] using the Ritz method for the free-free and the fixed-free end conditions. Fromme and Leissa [10] used the so-called Fourier associated-periodicity extension method to study the 3-D vibration of a completely free prism with rectangular cross-section.…”

Section: Introductionmentioning

confidence: 99%

“…Lim [16] investigated the effect of hypothetical assumption of neglecting flexural normal stress in vibration analysis for a cantilevered prism with rectangular cross-section. Up to now, most of the research work on 3-D vibration analysis of structural components is performed by the Ritz method because of its simplicity in analysis [9,[12][13][14][15][16], in which two types of polynomial functions are commonly used as the basis of admissible functions: the simple algebraic polynomials [9,[12][13][14]16] and the orthogonal polynomials [15]. It is well known that the simple algebraic polynomials have the straightforward and convenient characteristics in programming and computing.…”

Section: Introductionmentioning

confidence: 99%

Three-dimensional vibration analysis of prisms with isosceles triangular cross-section

Zhou

Cheung

et al. 2009

Arch Appl Mech

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This paper studies the three-dimensional (3-D) free vibration of uniform prisms with isosceles triangular cross-section, based on the exact, linear and small strain elasticity theory. The actual triangular prismatic domain is first mapped onto a basic cubic domain. Then the Ritz method is applied to derive the eigenfrequency equation from the energy functional of the prism. A set of triplicate Chebyshev polynomial series, multiplied by a boundary function chosen to, a priori, satisfy the geometric boundary conditions of the prism is developed as the admissible functions of each displacement component. The convergence and comparison study demonstrates the high accuracy and numerical robustness of the present method. The effect of length-thickness ratio and apex angle on eigenfrequencies of the prisms is studied in detail and the results are compared with those obtained from the classical one-dimensional theory and the 3-D finite element method. Sets of valuable data known for the first time are reported, which can serve as benchmark values in applying various approximate beam and rod theories.

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Comparisons of vibration frequencies for rods and beams from one-dimensional and three-dimensional analyses

Cited by 71 publications

References 0 publications

A hierarchy of dynamic equations for solid isotropic circular cylinders

A hierarchy of dynamic equations for solid isotropic circular cylinders

Study of pure transverse motion in free cylinders and plates in flexural vibration by Ritz’s method

Three-dimensional vibration analysis of prisms with isosceles triangular cross-section

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