The static behavior of a modular foam-filled GFRP bridge deck with a strong web-flange joint

Goangseup Zi; Byeong Min Kim; Yoon Koog Hwang; Young Ho Lee

doi:10.1016/j.compstruct.2007.10.015

The static behavior of a modular foam-filled GFRP bridge deck with a strong web-flange joint

Goangseup Zi, Byeong Min Kim, Yoon Koog Hwang, Young Ho Lee

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

29 Citations (Scopus)

Abstract

The static behavior of a modular bridge deck filled with a low-density polyurethane foam was experimentally investigated. The web-flange joint of the deck was strong enough so that a failure of the deck in the transverse direction was governed by the delamination of the bond between two adjacent modules whether the deck was filled or not. Although the elastic modulus of the foam was only a thousandth of the homogenized modulus of the GFRP deck, the structural performance of the deck in the transverse direction was significantly improved by the foam filled inside the deck. It was shown experimentally that tensile stress could develop in the top flange of the deck subjected to three point bending because of shear deformation. Such a development of tensile stress was significantly mitigated by the foam filled inside the deck.

Original language	English
Pages (from-to)	155-163
Number of pages	9
Journal	Composite Structures
Volume	85
Issue number	2
DOIs	https://doi.org/10.1016/j.compstruct.2007.10.015
Publication status	Published - 2008 Sept

Keywords

Foam
Foam-filled GFRP deck
Orthotropic bridge deck
Strong web-flange joint
Transverse direction

ASJC Scopus subject areas

Ceramics and Composites
Civil and Structural Engineering

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10.1016/j.compstruct.2007.10.015

Cite this

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title = "The static behavior of a modular foam-filled GFRP bridge deck with a strong web-flange joint",

abstract = "The static behavior of a modular bridge deck filled with a low-density polyurethane foam was experimentally investigated. The web-flange joint of the deck was strong enough so that a failure of the deck in the transverse direction was governed by the delamination of the bond between two adjacent modules whether the deck was filled or not. Although the elastic modulus of the foam was only a thousandth of the homogenized modulus of the GFRP deck, the structural performance of the deck in the transverse direction was significantly improved by the foam filled inside the deck. It was shown experimentally that tensile stress could develop in the top flange of the deck subjected to three point bending because of shear deformation. Such a development of tensile stress was significantly mitigated by the foam filled inside the deck.",

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AB - The static behavior of a modular bridge deck filled with a low-density polyurethane foam was experimentally investigated. The web-flange joint of the deck was strong enough so that a failure of the deck in the transverse direction was governed by the delamination of the bond between two adjacent modules whether the deck was filled or not. Although the elastic modulus of the foam was only a thousandth of the homogenized modulus of the GFRP deck, the structural performance of the deck in the transverse direction was significantly improved by the foam filled inside the deck. It was shown experimentally that tensile stress could develop in the top flange of the deck subjected to three point bending because of shear deformation. Such a development of tensile stress was significantly mitigated by the foam filled inside the deck.

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The static behavior of a modular foam-filled GFRP bridge deck with a strong web-flange joint

Abstract

Keywords

ASJC Scopus subject areas

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