Add to ORKGA 55 ft. long prestressed, composite steel girder-concrete slab bridge unit was tested to ultimate load. The unit had previously undergone a series of tests including sustained loading, fatigue loading, and static loading to first yield. The 54 ft.' simply supported span was subjected to static loads applied at points 20: ft. from the supports. Vertical deflection as measured at midspan, and horizontal slippage at the slab-girder interface was measured at several locations along the span. Strain gage readings at midspan throughout the depth of the unit were recorded. The bridge unit behaved in a ductile manner, deflecting 18. 6 inches before failure occurred. Failure was by crushing of the slab at the load application points. The unit suppo...
An experimental verification of actual flexural behavior of composite steel-concrete girder bridge ...
The mechanical behavior of the steel⁻concrete joints in a composite bridge was investigated. P...
Precise evaluation for flexural ultimate capacity of bridges which are subjected to the collision of...
The behavior of two 55 ft. long prestressed, composite steel beamconcrete slab bridge units was stu...
BD544-18This report presents findings from a cooperative USF/URS/FDOT research study undertaken to d...
The behavior of two 55 ft. long prestressed, composite steel beam concrete slab bridge units was stu...
This report presents findings from a cooperative USF/URS/FDOT research study undertaken to develop d...
The objective of this research was to evaluate the current design specifications for use on prestres...
Bridge design and evaluation involve the determination of the internal forces and moments that each ...
In order to investigate the mechanical behavior, ultimate load carrying capacity, and failure mode o...
This report describes the design, instrumentation, construction, and test set-up of two high-strengt...
Recently, a new continuous bridge system has been proposed to increase the space under the bridge an...
For the assessment of existing slab-between-girder bridges, the shear capacity and failure mode are ...
A large number of existing reinforced concrete solid slab bridges in the Netherlands are found to be...
This report describes the results of overload tests on two 1/8th scale prestressed concrete bridge ...
An experimental verification of actual flexural behavior of composite steel-concrete girder bridge ...
The mechanical behavior of the steel⁻concrete joints in a composite bridge was investigated. P...
Precise evaluation for flexural ultimate capacity of bridges which are subjected to the collision of...
The behavior of two 55 ft. long prestressed, composite steel beamconcrete slab bridge units was stu...
BD544-18This report presents findings from a cooperative USF/URS/FDOT research study undertaken to d...
The behavior of two 55 ft. long prestressed, composite steel beam concrete slab bridge units was stu...
This report presents findings from a cooperative USF/URS/FDOT research study undertaken to develop d...
The objective of this research was to evaluate the current design specifications for use on prestres...
Bridge design and evaluation involve the determination of the internal forces and moments that each ...
In order to investigate the mechanical behavior, ultimate load carrying capacity, and failure mode o...
This report describes the design, instrumentation, construction, and test set-up of two high-strengt...
Recently, a new continuous bridge system has been proposed to increase the space under the bridge an...
For the assessment of existing slab-between-girder bridges, the shear capacity and failure mode are ...
A large number of existing reinforced concrete solid slab bridges in the Netherlands are found to be...
This report describes the results of overload tests on two 1/8th scale prestressed concrete bridge ...
An experimental verification of actual flexural behavior of composite steel-concrete girder bridge ...
The mechanical behavior of the steel⁻concrete joints in a composite bridge was investigated. P...
Precise evaluation for flexural ultimate capacity of bridges which are subjected to the collision of...