Prestressed Concrete Girder Design for Bridge Structure spreadsheet
Post tensioned simply supported prestressed concrete (PC) l-girder bridges are
widely used bridge system for short to medium span (20m to 50m) highway bridges due to its moderate self weight,
structural efficiency, ease of fabrication, low maintenance etc. ln order to compete with steel bridge systems, the
design of PC I-girder Bridge system must lead to the most economical use of materials. ln this paper, cost optimization
approach of a post-tensioned PC l-girder bridge system is presented. The objective is to minimize the total cost in the
design process of the bridge system considering the cost of materials, fabrication and installation. For a particular
girder span and bridge width, the design variables considered for the cost minimization of the bridge system, are girder
spacing, various cross sectional dimensions of the girder, number of strands per tendon, number of tendons, tendons
configuration, slab thickness and ordinary reinforcement for deck slab and girder,
Post tensioned simply supported prestressed concrete (PC) l-girder bridges are
widely used bridge system for short to medium span (20m to 50m) highway bridges due to its moderate self weight,
structural efficiency, ease of fabrication, low maintenance etc. ln order to compete with steel bridge systems, the
design of PC I-girder Bridge system must lead to the most economical use of materials. ln this paper, cost optimization
approach of a post-tensioned PC l-girder bridge system is presented. The objective is to minimize the total cost in the
design process of the bridge system considering the cost of materials, fabrication and installation. For a particular
girder span and bridge width, the design variables considered for the cost minimization of the bridge system, are girder
spacing, various cross sectional dimensions of the girder, number of strands per tendon, number of tendons, tendons
configuration, slab thickness and ordinary reinforcement for deck slab and girder,