Add to ORKGIn the present work, the behavior of a combined bridge-vehicle system in which, the bridge is modeled as a Timoshenko beam and the vehicle is considered as a half car model has been investigated using the finite element method. Responses of the beam and the vehicle model have been obtained and then validated with those reported in literature. The limitation of considering the vehicle as a quarter car model and also the effect of taking into account the rotatory inertia and shear deformation i.e. using the Timoshenko beam model has also been investigated. The finite element formulation of the Timoshenko with the attached Tuned Mass Dampers (TMDs) has been derived. Then the general equation of motion of a Timoshenko beam element with the att...
This work explores the ability to apply multi-modeling technique of new suspension system based on a...
The vibration of beams on foundations under a vehicular load has attracted wide attention for decade...
In order to mitigate the excessive longitudinal displacement responses of suspension bridge girders ...
Vibration suppression of beams traversed by moving loads, using optimal Tuned-Mass-Damper (TMD) syst...
A vehicle-bridge tuned mass damper (TMD) coupled dynamic analysis and vibration-control model was es...
A vehicle-bridge tuned mass damper (TMD) coupled dynamic analysis and vibration-control model was es...
AbstractIn this article, the dynamic responses of a Timoshenko beam subjected to a moving mass, and ...
Abstract: The current article presents an analytical approach, as well as a calculation method for d...
A numerical integration technique, a modified version of the Newmark method, is applied to transient...
This study examines the optimal design of a tuned mass damper (TMD) in the frequency domain so that ...
The overall aim of this dissertation is to conduct a comprehensive investigation on the design optim...
In this article, the vibration analysis of a set of parallel Timoshenko beams connected by intermedi...
Road bridge designs are based on technical standards, which, to date, consider dynamic loading as eq...
This paper proposes a synthetic approach to design and implement a two-degree of freedom tuned mass ...
This paper considers the effects of a tuned mass damper (TMD) on damaged bridge-accelerating quarter...
This work explores the ability to apply multi-modeling technique of new suspension system based on a...
The vibration of beams on foundations under a vehicular load has attracted wide attention for decade...
In order to mitigate the excessive longitudinal displacement responses of suspension bridge girders ...
Vibration suppression of beams traversed by moving loads, using optimal Tuned-Mass-Damper (TMD) syst...
A vehicle-bridge tuned mass damper (TMD) coupled dynamic analysis and vibration-control model was es...
A vehicle-bridge tuned mass damper (TMD) coupled dynamic analysis and vibration-control model was es...
AbstractIn this article, the dynamic responses of a Timoshenko beam subjected to a moving mass, and ...
Abstract: The current article presents an analytical approach, as well as a calculation method for d...
A numerical integration technique, a modified version of the Newmark method, is applied to transient...
This study examines the optimal design of a tuned mass damper (TMD) in the frequency domain so that ...
The overall aim of this dissertation is to conduct a comprehensive investigation on the design optim...
In this article, the vibration analysis of a set of parallel Timoshenko beams connected by intermedi...
Road bridge designs are based on technical standards, which, to date, consider dynamic loading as eq...
This paper proposes a synthetic approach to design and implement a two-degree of freedom tuned mass ...
This paper considers the effects of a tuned mass damper (TMD) on damaged bridge-accelerating quarter...
This work explores the ability to apply multi-modeling technique of new suspension system based on a...
The vibration of beams on foundations under a vehicular load has attracted wide attention for decade...
In order to mitigate the excessive longitudinal displacement responses of suspension bridge girders ...