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Live Load Distribution Factor for Highway Bridges Based on AASHTO-LRFD and Finite Element Analysis
The AASHTO-LRFD live 2load distribution factors for highway bridges show significant change compared to the standard AASHTO that have been used for the last 50 years. This paper presents a comparison between the moments distribution factors of concrete bridges due to live load calculated in accordance with the current AASHTO-LRFD (2004) formulas and finite-element analysis. Several three-dimensional linear elastic models were built using the structural analysis program SAP2000 to obtain the most accurate method to model the bridge superstructure. The bridge deck was modeled as quadrilateral shell elements and the girders as space frame elements. The live load used in the analysis is the vehicular load plus the standard uniform lane load as specified by AASHTO-LRFD. The live load is positioned at the longitudinal location that produces the maximum moments, then the load is moved transversely across the bridge width in order to investigate all possibilities of bridge loading (one, two and three lanes loaded). In this comparison the range of applicability specified by the AASHTO-LRFD is fully covered in terms of span length, slab thickness, girder spacing and longitudinal stiffness. One parameter is considered at a time while the remaining parameters are fixed. All the AASHTO-PCI girders (Type I to VI) are considered to cover the complete range of longitudinal stiffness specified in the AASHTO-LRFD specifications. The results of this study are presented in format of graphs and some recommendations for specific bridge geometries are presented.
Live Load Distribution Factor for Highway Bridges Based on AASHTO-LRFD and Finite Element Analysis
The AASHTO-LRFD live 2load distribution factors for highway bridges show significant change compared to the standard AASHTO that have been used for the last 50 years. This paper presents a comparison between the moments distribution factors of concrete bridges due to live load calculated in accordance with the current AASHTO-LRFD (2004) formulas and finite-element analysis. Several three-dimensional linear elastic models were built using the structural analysis program SAP2000 to obtain the most accurate method to model the bridge superstructure. The bridge deck was modeled as quadrilateral shell elements and the girders as space frame elements. The live load used in the analysis is the vehicular load plus the standard uniform lane load as specified by AASHTO-LRFD. The live load is positioned at the longitudinal location that produces the maximum moments, then the load is moved transversely across the bridge width in order to investigate all possibilities of bridge loading (one, two and three lanes loaded). In this comparison the range of applicability specified by the AASHTO-LRFD is fully covered in terms of span length, slab thickness, girder spacing and longitudinal stiffness. One parameter is considered at a time while the remaining parameters are fixed. All the AASHTO-PCI girders (Type I to VI) are considered to cover the complete range of longitudinal stiffness specified in the AASHTO-LRFD specifications. The results of this study are presented in format of graphs and some recommendations for specific bridge geometries are presented.
Live Load Distribution Factor for Highway Bridges Based on AASHTO-LRFD and Finite Element Analysis
Yousif, Zaher (author) / Hindi, Riyadh (author)
Structures Congress 2006 ; 2006 ; St. Louis, Missouri, United States
Structures Congress 2006 ; 1-11
2006-10-10
Conference paper
Electronic Resource
English
Live Load Distribution Factor for Highway Bridges Based on AASHTO-LRFD and Finite Element Analysis
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