Fluid viscoelastic dampers are of great interest in different fields of engineering. Examples of their applications can be found in seismic mitigation design of structures or in vibration absorption in airplane suspension. Such devices introduce a non-linear dissipative term in the equation of motion and therefore, the solution of even a single degree of freedom system excited by a white noise process, becomes prohibitive. The solution is usually obtained by approximated methods, like the stochastic linearization technique. In this paper it is shown that, by means of fractional operators, it is possible to find the solution of oscillators provided with fluid viscoelastic devices, approaching the problem in its originally nonlinear form. Com...
In this paper, we applied the Riemann-Liouville approach and the fractional Euler-Lagrange equations...
In this paper, the Galerkin method is presented to estimate the approximate stationary and non-stati...
This paper presents a method for reducing the computational effort due to finite element analysis of...
Fluid viscoelastic dampers are of great interest in different fields of engineering. Examples of the...
A method is presented to compute the non-stationary response of single-degree-of-freedom structural ...
A numerical method is presented to compute the response of a viscoelastic Duffing oscillator with fr...
In this paper an original method is presented to compute the stochastic response of singledegree- of...
Fractional power-law nonlinear drift arises in many applications of engineering interest, as in stru...
Fractional power-law nonlinear drift arises in many applications of engineering interest, as in stru...
Fractional-order derivatives appear in various engineering applications including models for viscoel...
Fractional oscillators have been recently proposed as damping devices under the configuration of Fra...
A method is presented to compute the stochastic response of single-degree-of-freedom (SDOF) structur...
The prediction of oscillators is usually employed in various industrial and technological problems; ...
peer reviewedAbstract This paper studies the structural response of a single degree-of- freedom stru...
The use of linear viscoelasticity together with fractional calculus in time-domain structural modeli...
In this paper, we applied the Riemann-Liouville approach and the fractional Euler-Lagrange equations...
In this paper, the Galerkin method is presented to estimate the approximate stationary and non-stati...
This paper presents a method for reducing the computational effort due to finite element analysis of...
Fluid viscoelastic dampers are of great interest in different fields of engineering. Examples of the...
A method is presented to compute the non-stationary response of single-degree-of-freedom structural ...
A numerical method is presented to compute the response of a viscoelastic Duffing oscillator with fr...
In this paper an original method is presented to compute the stochastic response of singledegree- of...
Fractional power-law nonlinear drift arises in many applications of engineering interest, as in stru...
Fractional power-law nonlinear drift arises in many applications of engineering interest, as in stru...
Fractional-order derivatives appear in various engineering applications including models for viscoel...
Fractional oscillators have been recently proposed as damping devices under the configuration of Fra...
A method is presented to compute the stochastic response of single-degree-of-freedom (SDOF) structur...
The prediction of oscillators is usually employed in various industrial and technological problems; ...
peer reviewedAbstract This paper studies the structural response of a single degree-of- freedom stru...
The use of linear viscoelasticity together with fractional calculus in time-domain structural modeli...
In this paper, we applied the Riemann-Liouville approach and the fractional Euler-Lagrange equations...
In this paper, the Galerkin method is presented to estimate the approximate stationary and non-stati...
This paper presents a method for reducing the computational effort due to finite element analysis of...