Stochastic flexural vibrations of small-scale Bernoulli–Euler beams with external damping are investigated by stress-driven nonlocal mechanics. Damping effects are simulated considering viscous interactions between beam and surrounding environment. Loadings are modeled by accounting for their random nature. Such a dynamic problem is characterized by a stochastic partial differential equation in space and time governing time-evolution of the relevant displacement field. Differential eigenanalyses are performed to evaluate modal time coordinates and mode shapes, providing a complete stochastic description of response solutions. Closed-form expressions of power spectral density, correlation function, stationary and non-stationary variances of ...
The free vibrational characteristics of a beam-column, which is having randomly varying Young's modu...
The paper introduces an extreme value model based on statistical moments to predict modal and vibrat...
This paper presents a framework to assess the random vibration response of single-span beams. The be...
Stochastic flexural vibrations of small-scale Bernoulli–Euler beams with external damping are invest...
Random flexural vibrations of small-scale Bernoulli–Euler beams with internal and external damping a...
Several structures, such as micro/nano-devices, long-fiber reinforced composites, beam with external...
This contribution deals with the vibrational response of Euler-Bernoulli beams equipped with tuned m...
Recently, a displacement-based non-local beam model has been developed and the relative finite eleme...
The problem of characterizing response variability and assessing reliability of vibrating skeletal s...
This contribution deals with the vibrational response of Euler-Bernoulli beams equipped with tuned m...
Dynamic behaviour of a beam, subjected to stationary random excitation, has been investigated for th...
The aim of this paper is to investigate the steady state response of beams under the action of rando...
Stochastic or random vibrations occur in a variety of applications of mechanicalengineering. Example...
This paper aims at introducing the governing equation of motion of a continuous fractionally damped ...
Uncertainties in load and system properties play a significant role in reliability analysis of vibra...
The free vibrational characteristics of a beam-column, which is having randomly varying Young's modu...
The paper introduces an extreme value model based on statistical moments to predict modal and vibrat...
This paper presents a framework to assess the random vibration response of single-span beams. The be...
Stochastic flexural vibrations of small-scale Bernoulli–Euler beams with external damping are invest...
Random flexural vibrations of small-scale Bernoulli–Euler beams with internal and external damping a...
Several structures, such as micro/nano-devices, long-fiber reinforced composites, beam with external...
This contribution deals with the vibrational response of Euler-Bernoulli beams equipped with tuned m...
Recently, a displacement-based non-local beam model has been developed and the relative finite eleme...
The problem of characterizing response variability and assessing reliability of vibrating skeletal s...
This contribution deals with the vibrational response of Euler-Bernoulli beams equipped with tuned m...
Dynamic behaviour of a beam, subjected to stationary random excitation, has been investigated for th...
The aim of this paper is to investigate the steady state response of beams under the action of rando...
Stochastic or random vibrations occur in a variety of applications of mechanicalengineering. Example...
This paper aims at introducing the governing equation of motion of a continuous fractionally damped ...
Uncertainties in load and system properties play a significant role in reliability analysis of vibra...
The free vibrational characteristics of a beam-column, which is having randomly varying Young's modu...
The paper introduces an extreme value model based on statistical moments to predict modal and vibrat...
This paper presents a framework to assess the random vibration response of single-span beams. The be...