Two different iteration strategies are developed to solve the problem of bridge-vehicle dynamic interaction in the time domain, taking into account the pavement roughness effects. Separate and decoupled mechanical models for the vehicle and the bridge are adopted. The procedure named WTH iterates on the whole time history, can be easily applied with any commercial code and might deal with slight non linearity. The procedure named STS iterates over the single time-step, relies on an ad hoc developed computer code and can be further developed to include the effects of any non linearity in both the structure and the vehicle. Parametric studies are performed, making use of the WTH procedure, on a 3D model of a reinforced concrete simply support...
Dynamic response of a single span bridge subjected to moving flexible vehicles has been studied usin...
Based on the same coupled formulation of the vehicle-bridge dynamic system, written in total displac...
An evolutionary spectral method is presented to model the interaction between vehicle and bridge wit...
Two different iteration strategies are developed to solve the problem of bridge-vehicle dynamic inte...
This work, based on the adoption of separate and decoupled mechanical models for the vehicle and the...
An uncoupled formulation of the equations of motion was previously proposed by the Au-thors to solve...
First investigations on the dynamic response of bridges due to moving loads were motivated by the co...
A formulation of the coupled equations of motion for the bridge-vehicle dynamic interaction problem ...
Most bridge design standards do not consider a dynamic analysis but instead consider an equivalent s...
Vehicles generate moving dynamic loads on bridges. In most studies and current practice, the actions...
To solve the problem of vehicle-bridge dynamic interaction in time domain, the Authors proposed an u...
In order to cover the complexity of coding and extend the generality on the road vehicle-bridge iter...
Traditionally, dynamic effects on bridge decks brought about by moving vehicle loads, are taken into...
Dynamic response of a single span bridge subjected to moving flexible vehicles has been studied usin...
Based on the same coupled formulation of the vehicle-bridge dynamic system, written in total displac...
An evolutionary spectral method is presented to model the interaction between vehicle and bridge wit...
Two different iteration strategies are developed to solve the problem of bridge-vehicle dynamic inte...
This work, based on the adoption of separate and decoupled mechanical models for the vehicle and the...
An uncoupled formulation of the equations of motion was previously proposed by the Au-thors to solve...
First investigations on the dynamic response of bridges due to moving loads were motivated by the co...
A formulation of the coupled equations of motion for the bridge-vehicle dynamic interaction problem ...
Most bridge design standards do not consider a dynamic analysis but instead consider an equivalent s...
Vehicles generate moving dynamic loads on bridges. In most studies and current practice, the actions...
To solve the problem of vehicle-bridge dynamic interaction in time domain, the Authors proposed an u...
In order to cover the complexity of coding and extend the generality on the road vehicle-bridge iter...
Traditionally, dynamic effects on bridge decks brought about by moving vehicle loads, are taken into...
Dynamic response of a single span bridge subjected to moving flexible vehicles has been studied usin...
Based on the same coupled formulation of the vehicle-bridge dynamic system, written in total displac...
An evolutionary spectral method is presented to model the interaction between vehicle and bridge wit...