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International Journal of Pavement Engineering Volume 16, 2015 - Issue 7
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Articles

Research on failure mode and mechanism of different types of waterproof adhesive materials for bridge deck

Yanchun LiSchool of Civil Engineering, Hebei University of Technology, No. 5340, Xiping Road, Beichen District, 300401Tianjin, P.R. ChinaCorrespondence[email protected]
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Song LiSchool of Civil Engineering, Hebei University of Technology, No. 5340, Xiping Road, Beichen District, 300401Tianjin, P.R. ChinaView further author information
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Rui LvSchool of Civil Engineering, Hebei University of Technology, No. 5340, Xiping Road, Beichen District, 300401Tianjin, P.R. ChinaView further author information
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Pan ZhangSchool of Civil Engineering, Hebei University of Technology, No. 5340, Xiping Road, Beichen District, 300401Tianjin, P.R. ChinaView further author information
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Yuzhuo XuDepartment of Transportation Highway Management Office, Baoding, Hebei Province, P.R. ChinaView further author information
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Guojing HouDepartment of Transportation Highway Management Office, Baoding, Hebei Province, P.R. ChinaView further author information
&
Chuan CuiDepartment of Transportation Highway Management Office, Baoding, Hebei Province, P.R. ChinaView further author information
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Pages 602-608 | Received 01 Jul 2013, Accepted 09 Mar 2014, Published online: 31 Jul 2014
 
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Abstract

The behaviour of the waterproof adhesive material is closely related to the interfacial failure mode and mechanism. This paper studied the interlaminar failure and mechanism of different materials, including crumb rubber-modified asphalt, styrene-butadiene-styrene-modified emulsified asphalt and epoxy resin adhesive, used in waterproof adhesive layer (WAL). The results indicate that the shear strength of WAL is affected by the WAL's thickness, the concrete surface treatment, the synchronous gravels size and the test temperature. According to the shearing test, the WAL fails in three modes: the cohesive failure, separation of the WAL and cement-concrete deck interface, and separation of the WAL and asphalt concrete interface. In order to develop the maximum effectiveness of WAL in the design and construction, the failure mechanism of WAL was also examined.

Notes

Additional information

Funding

This work was supported by the science and technology key project of transportation hall in Hebei province of China in 2010 (No. Y-2010075).

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