Stiffness and Strength Evaluations of a Shear Connection System for FRP Bridge Decks to Steel Girders |
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Authors: | Julio F. Davalos An Chen Bin Zou |
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Affiliation: | 1Benedum Distinguished Teaching Professor, Dept. of Civil and Environmental Engineering, West Virginia Univ., Morgantown, WV 26506-6103. E-mail: julio.davalos@mail.wvu.edu 2Research Assistant Professor, Dept. of Civil and Environmental Engineering, West Virginia Univ. (corresponding author). E-mail: an.chen@mail.wvu.edu 3Formerly, Graduate Research Assistant, Dept. of Civil and Environmental Engineering, West Virginia Univ.
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Abstract: | This paper reports on research investigating a nongrouted sleeve-type connection used to attach fiber-reinforced polymer (FRP) decks to steel girders. The connection system was investigated for stiffness, strength, fatigue resistance, and degree of composite action. Static and fatigue tests were conducted first at the component level on push-out specimens to obtain P-Δ (load-displacement) and S-N (stress range–fatigue life) relationships, from which design formulas were developed. Then tests were conducted at the system level on a 1∶3 scaled-bridge model by using this sleeve-type connection, and the results showed this shear connection can satisfy requirements from AASHTO specifications for fatigue, strength, and function. Further, three-point bending tests were conducted on a T-section model cut from the scaled bridge, and approximately 25% composite action was achieved for two different connection spacings. The structural efficiency of this shear connection is shown, and this connection design is applied in practice. |
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Keywords: | Fiber reinforced plastics Bridge decks Bridges, girder Connections Fatigue |
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