This paper describes an original approach to the study of the seismic behaviour of bridge abutments. The proposed method incorporates a simplified description of the dynamic response of the bridge structure into a finite-element model of the soil-abutment system. Specifically, the dynamic behaviour of the bridge structure is described by a macro-element that simulates the loads transferred to the abutment during the seismic event. The macro-element is identified using a structural model of the bridge as a reference. This approach improves the current analysis methods based on sub-structuring, limiting at the same time the computational demand needed for a complete study of the soil-structure interaction. In the paper, the validity of the pr...
Abutment behavior significantly influences the seismic response of certain bridge structures. Specif...
A simplified model is proposed to show the importance that the dynamic soil-abutment interaction can...
Abutment behavior significantly influences the seismic response of certain bridge Structures. Specif...
Bridge designers have adopted simple approximate methods to take into account soil-structure-interac...
This paper presents a coupled numerical modelling of the soil-structure interaction for a multi-span...
In recent years, the designers of long girder bridges in seismic areas have frequently opted for a c...
Under seismic conditions a bridge abutment can transfer significant inertial effects to the superstr...
The abutment is the part of a bridge that has a more significant dynamic interaction with the soil; ...
Under the large forces transmitted by a bridge structure during an earthquake, a bridge abutment may...
The paper describes a new approach and its practical implementation for the analysis of the inelasti...
In recent years, the designers of girder bridges in seismic areas have frequently opted for a contin...
Strong motion records obtained in instrumented short-span bridges show the importance of the abutmen...
This paper proposes a multiaxial macroelement for bridge abutments that can be included in the glob...
A simplified analytical model of a short span bridge is proposed. The inertial interaction effects o...
In the design of a structure, the implementation of reliable soil-foundation-structure interaction i...
Abutment behavior significantly influences the seismic response of certain bridge structures. Specif...
A simplified model is proposed to show the importance that the dynamic soil-abutment interaction can...
Abutment behavior significantly influences the seismic response of certain bridge Structures. Specif...
Bridge designers have adopted simple approximate methods to take into account soil-structure-interac...
This paper presents a coupled numerical modelling of the soil-structure interaction for a multi-span...
In recent years, the designers of long girder bridges in seismic areas have frequently opted for a c...
Under seismic conditions a bridge abutment can transfer significant inertial effects to the superstr...
The abutment is the part of a bridge that has a more significant dynamic interaction with the soil; ...
Under the large forces transmitted by a bridge structure during an earthquake, a bridge abutment may...
The paper describes a new approach and its practical implementation for the analysis of the inelasti...
In recent years, the designers of girder bridges in seismic areas have frequently opted for a contin...
Strong motion records obtained in instrumented short-span bridges show the importance of the abutmen...
This paper proposes a multiaxial macroelement for bridge abutments that can be included in the glob...
A simplified analytical model of a short span bridge is proposed. The inertial interaction effects o...
In the design of a structure, the implementation of reliable soil-foundation-structure interaction i...
Abutment behavior significantly influences the seismic response of certain bridge structures. Specif...
A simplified model is proposed to show the importance that the dynamic soil-abutment interaction can...
Abutment behavior significantly influences the seismic response of certain bridge Structures. Specif...