This paper treats all regular second- or fourth-order Sturm–Liouville (SL) problems as generalised vibration problems of non-uniform structural members on elastic foundations. Hence such SL problems can be solved by the Wittrick–Williams (WW) algorithm and the authors’ recursive second-order exact dynamic stiffness vibration method. The coefficients of the mathematical SL problems range more widely than for structural vibration problems, and so the method must account for additional possibilities, e.g. the equivalent of large negative stiffness continuous elastic supports. The method computes exact dynamic stiffnesses and their derivatives with respect to the eigenparameter accurately by solving the associated linear boundary-value problems...
In this paper, a method for obtaining nonlinear stiffness coefficients in modal coordinates for geom...
The free vibration of functionally graded Timoshenko beams is investigated by developing the dynamic...
A moving Timoshenko beam is analyzed for its free vibration characteristics using the dynamic stiffn...
Closed-form dynamic stiffness (DS) formulations coupled with an efficient eigen-solution technique a...
Attention is given to determining the exact natural frequencies and modes of vibration of a class of...
In this paper, an exact dynamic stiffness formulation using one-dimensional (1D) higher-order theori...
The article is dedicated to the discussion on the exact dynamic stiffness matrix method applied to t...
In this paper, an exact dynamic stiffness formulation using one-dimensional (1D) higher-order theori...
In linear elasticity, most of the theories of structures in dynamics are governed by partial differe...
Transcendental stiffness matrices are well established in vibration and buckling analysis, having be...
A new computational method for the linear eigensolution of structural dynamics is proposed. The eige...
Transcendental stiffness matrices for vibration (or buckling) have been derived from exact analytica...
This paper presents and proves an algorithm for determining the natural undamped frequencies of vibr...
In this paper, a method for obtaining nonlinear stiffness coefficients in modal coordinates for geom...
Eigenvalues (i.e. natural frequencies or buckling load factors) of structures are usually found by t...
In this paper, a method for obtaining nonlinear stiffness coefficients in modal coordinates for geom...
The free vibration of functionally graded Timoshenko beams is investigated by developing the dynamic...
A moving Timoshenko beam is analyzed for its free vibration characteristics using the dynamic stiffn...
Closed-form dynamic stiffness (DS) formulations coupled with an efficient eigen-solution technique a...
Attention is given to determining the exact natural frequencies and modes of vibration of a class of...
In this paper, an exact dynamic stiffness formulation using one-dimensional (1D) higher-order theori...
The article is dedicated to the discussion on the exact dynamic stiffness matrix method applied to t...
In this paper, an exact dynamic stiffness formulation using one-dimensional (1D) higher-order theori...
In linear elasticity, most of the theories of structures in dynamics are governed by partial differe...
Transcendental stiffness matrices are well established in vibration and buckling analysis, having be...
A new computational method for the linear eigensolution of structural dynamics is proposed. The eige...
Transcendental stiffness matrices for vibration (or buckling) have been derived from exact analytica...
This paper presents and proves an algorithm for determining the natural undamped frequencies of vibr...
In this paper, a method for obtaining nonlinear stiffness coefficients in modal coordinates for geom...
Eigenvalues (i.e. natural frequencies or buckling load factors) of structures are usually found by t...
In this paper, a method for obtaining nonlinear stiffness coefficients in modal coordinates for geom...
The free vibration of functionally graded Timoshenko beams is investigated by developing the dynamic...
A moving Timoshenko beam is analyzed for its free vibration characteristics using the dynamic stiffn...