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Title: A Parametric Study to Understand the Adhesion Failure Mechanism of Asphalt Sealant
Accession Number: 01627785
Record Type: Component
Abstract: Although adhesive failure is the predominant distress responsible for early sealant failure in asphalt pavement, there is hardly any study available on variation of adhesive strength of sealant-asphalt concrete with temperature change. This study was performed to investigate the adhesive strength of sealant by utilizing a new test setup developed from modification of Texas overlay test. This test method applies direct tension to sealant-substrate assembly, uses reasonable large scale asphalt concrete substrate, performs tests on easily prepared specimens and most importantly does not require any specialized sealant testing machine. In this study, type I and type IV sealants were tested at four temperatures on two different thicknesses to evaluate the adhesive strength. A general conclusion obtained from this study is that sealant recommended for low temperature use (type IV) fails in adhesion irrespective of temperature or thickness. In addition, it follows a good correlation (R2 value of 0.93) with the elongation at failure. A correlation between shear modulus and adhesive strength for both the sealants at each thickness were also established in this paper having R2 values over 0.90 for every cases. A general trend on the effect of thickness was observed and was explained by proposing a hypothesis that there exists a certain modulus for each sealant type at which the bond strength remains same irrespective of its thickness. Also, in this study, it was clearly demonstrated that water conditioning of sealant joints reduces adhesive strength significantly by changing failure pattern from cohesive or mix mode to fully adhesive.
Supplemental Notes: This paper was sponsored by TRB committee AHD25 Standing Committee on Sealants and Fillers for Joints and Cracks.
Monograph Title: Monograph Accession #: 01618707
Report/Paper Numbers: 17-06749
Language: English
Corporate Authors: Transportation Research Board 500 Fifth Street, NW Authors: Stagg, DanielArafat, ShamsWasiuddin, Nazimuddin MPagination: 17p
Publication Date: 2017
Conference:
Transportation Research Board 96th Annual Meeting
Location:
Washington DC, United States Media Type: Digital/other
Features: Figures; References; Tables
TRT Terms: Subject Areas: Highways; Maintenance and Preservation; Materials; Pavements
Source Data: Transportation Research Board Annual Meeting 2017 Paper #17-06749
Files: TRIS, TRB, ATRI
Created Date: Dec 8 2016 12:46PM
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