The Research on the Interface Performance of Deck of Cement Concrete Bridge and Asphalt Pavement

Jin Lei

doi:10.4028/www.scientific.net/AMR.723.237

Paper Titles

Structural Response Analysis of Highways under Heavy Loads
p.204

Study on Basic Characteristics and Design Method of Concrete Strip Roads
p.212

Subgrade Dynamic Backcalculation Based on PFWD
p.220

The Effects on Pavement Performance of AC-20 Asphalt Mixture Addicted with Polyester Fiber or Anti-Rut Agent
p.230

The Research on the Interface Performance of Deck of Cement Concrete Bridge and Asphalt Pavement
p.237

Three-Dimensional Finite Element Analysis of Doweled Joints in Concrete Pavements
p.245

Analysis of Whole Weathered Granite Improved Soil Subgrade Dynamic Response
p.261

Correlating the Dynamic Modulus and the Indirect Tensile Strength of Asphalt Concrete
p.268

Differences in Fatigue Behavior among the Gussasphalt, SMA and AC
p.276

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 723The Research on the Interface Performance of Deck...

The Research on the Interface Performance of Deck of Cement Concrete Bridge and Asphalt Pavement

Abstract:

The deck of cement concrete bridge and the interface of asphalt pavement, and these two combined items have a direct effect on the useful life of asphalt pavement. According to the indoor shear test and pullout test, we could learn that the interlayer shear strength and the bond strength are strongly affected by temperature, and it is decreased with increasing test temperature. The pullout test analyses the variation regularity of bond strength between four adhesive layers and bridge panel at different temperatures, which proves that the bond strength is also decreased with increasing test temperature. The research suggests that the shear test and pullout test is worthy of evaluating the interface performance between deck and asphalt pavement under the high stability and low temperature conditions.

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Periodical:

Advanced Materials Research (Volume 723)

Pages:

237-244

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.723.237

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Online since:

August 2013

Authors:

Jin Lei

Keywords:

Asphalt Mixture Surfing, Deck, Interface, Pull-Out Test, Road Engineering, Shear Test

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