Performance of a fiber reinforced polymer web core skew bridge superstructure. Part I: Field testing and finite element simulations

Amjad J. Aref; Sreenivas Alampalli; Yihong He

doi:10.1016/j.compstruct.2004.08.006

Performance of a fiber reinforced polymer web core skew bridge superstructure. Part I: Field testing and finite element simulations

Amjad J. Aref
, Sreenivas Alampalli
, Yihong He

Department of Civil, Structural & Environmental Engineering

Bridge Prog./Eval. Services Bureau
SUNY Buffalo

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

The structural behavior of a fiber reinforced polymer (FRP) web core skew bridge superstructure is studied in this two-part paper. The two-lane bridge is a simply supported superstructure with a 7.807 m span, 10.071 m wide and a 30° skew angle. The FRP bridge deck is a sandwich structure with a two-way web core matrix and faceskins, fabricated by a molding process with E-glass fibers and vinylester resins. Four field tests have been performed since then. In this first part, the bridge structural configurations and the field test results are presented. A finite element model is developed and validated by field testing to simulate the bridge structural behavior. The comparison of the field testing and numerical simulation results shows a good agreement and bridge is performing as designed.

Original language	English
Pages (from-to)	491-499
Number of pages	9
Journal	Composite Structures
Volume	69
Issue number	4
DOIs	https://doi.org/10.1016/j.compstruct.2004.08.006
State	Published - Aug 2005

Keywords

Composite bridge superstructures
Fiber reinforced polymer (FRP)
Finite element analysis (FEA)
Skew bridges

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10.1016/j.compstruct.2004.08.006

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title = "Performance of a fiber reinforced polymer web core skew bridge superstructure. Part I: Field testing and finite element simulations",

abstract = "The structural behavior of a fiber reinforced polymer (FRP) web core skew bridge superstructure is studied in this two-part paper. The two-lane bridge is a simply supported superstructure with a 7.807 m span, 10.071 m wide and a 30° skew angle. The FRP bridge deck is a sandwich structure with a two-way web core matrix and faceskins, fabricated by a molding process with E-glass fibers and vinylester resins. Four field tests have been performed since then. In this first part, the bridge structural configurations and the field test results are presented. A finite element model is developed and validated by field testing to simulate the bridge structural behavior. The comparison of the field testing and numerical simulation results shows a good agreement and bridge is performing as designed.",

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AB - The structural behavior of a fiber reinforced polymer (FRP) web core skew bridge superstructure is studied in this two-part paper. The two-lane bridge is a simply supported superstructure with a 7.807 m span, 10.071 m wide and a 30° skew angle. The FRP bridge deck is a sandwich structure with a two-way web core matrix and faceskins, fabricated by a molding process with E-glass fibers and vinylester resins. Four field tests have been performed since then. In this first part, the bridge structural configurations and the field test results are presented. A finite element model is developed and validated by field testing to simulate the bridge structural behavior. The comparison of the field testing and numerical simulation results shows a good agreement and bridge is performing as designed.

KW - Composite bridge superstructures

KW - Fiber reinforced polymer (FRP)

KW - Finite element analysis (FEA)

KW - Skew bridges

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JO - Composite Structures

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IS - 4

ER -

Performance of a fiber reinforced polymer web core skew bridge superstructure. Part I: Field testing and finite element simulations

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Keywords

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