The free vibrational characteristics of a beam-column, which is having randomly varying Young's modulus and mass density and subjected to randomly distributed axial loading is analysed. The material property fluctuations and axial loadings are considered to constitute independent one-dimensional, uni-variate, homogeneous real, spatially distributed stochastic fields. Hamilton's principle is used to formulate the problem using stochastic FEM. Vibration frequencies and mode shapes are analysed for their statistical descriptions. A numerical example is shown
The problem of characterizing response variability and assessing reliability of vibrating skeletal s...
Stochastic flexural vibrations of small-scale Bernoulli–Euler beams with external damping are invest...
Typically, numerical or approximate methods are used for the free vibration analysis of axially load...
The free vibrational characteristics of a beam-column, which is having randomly varying Young's modu...
A beam-column resting on continuous Winkler foundation and discrete elastic supports is considered. ...
Columns which have stochastically distributed Young's modulus and mass density and are subjected to ...
A new finite element method is developed to analyse non-conservative structures with more than one p...
A new finite element method is developed to analyse the structures with more than one parameter beha...
In this study, we use the stochastic finite element method for vibration analysis of functionally gr...
Nonconservatively loaded columns. which have stochastically distributed material property values and...
This paper deal with the stochastic finite element method for investigating the eigenvalues of free ...
Stiffness matrices of beams with stochastic distributed parameters modelled by random fields are con...
This paper presents a framework to assess the random vibration response of single-span beams. The be...
In this study, the stochastic finite element solution is given to obtain the variability in the natu...
The Leipholz column which is having the Young modulus and mass per unit length as stochastic process...
The problem of characterizing response variability and assessing reliability of vibrating skeletal s...
Stochastic flexural vibrations of small-scale Bernoulli–Euler beams with external damping are invest...
Typically, numerical or approximate methods are used for the free vibration analysis of axially load...
The free vibrational characteristics of a beam-column, which is having randomly varying Young's modu...
A beam-column resting on continuous Winkler foundation and discrete elastic supports is considered. ...
Columns which have stochastically distributed Young's modulus and mass density and are subjected to ...
A new finite element method is developed to analyse non-conservative structures with more than one p...
A new finite element method is developed to analyse the structures with more than one parameter beha...
In this study, we use the stochastic finite element method for vibration analysis of functionally gr...
Nonconservatively loaded columns. which have stochastically distributed material property values and...
This paper deal with the stochastic finite element method for investigating the eigenvalues of free ...
Stiffness matrices of beams with stochastic distributed parameters modelled by random fields are con...
This paper presents a framework to assess the random vibration response of single-span beams. The be...
In this study, the stochastic finite element solution is given to obtain the variability in the natu...
The Leipholz column which is having the Young modulus and mass per unit length as stochastic process...
The problem of characterizing response variability and assessing reliability of vibrating skeletal s...
Stochastic flexural vibrations of small-scale Bernoulli–Euler beams with external damping are invest...
Typically, numerical or approximate methods are used for the free vibration analysis of axially load...