Improving the properties of hot applied crack sealant by utilizing Pre-activated Crumb Rubber (PCR)

Crack sealing stands as a cost-effective pavement maintenance practice and has a typical life span of 1–3 years. To enhance sealants’ longevity and optimize their performance, evaluating potential material modification, particularly in hot and arid regions, is of interest. In this research study, a...

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Bibliographic Details
Published in:Construction & building materials 2024-03, Vol.419, p.135512, Article 135512
Main Authors: Karam, Jolina, Zalghout, Ali, Tallis, Abdel Rahman El, Kaloush, Kamil
Format: Article
Language:English
Subjects:
Aging
Crack sealing
Fracture
Pre-Activated Crumb Rubber
Recovery
Shear Thinning
Temperature Susceptibility
Toughness and Tenacity
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Summary:Crack sealing stands as a cost-effective pavement maintenance practice and has a typical life span of 1–3 years. To enhance sealants’ longevity and optimize their performance, evaluating potential material modification, particularly in hot and arid regions, is of interest. In this research study, a comprehensive testing protocol was designed to address prevalent failure modes observed in asphalt crack sealants such as adhesion, cohesion, pumping, and settlement failures. The primary modification involved the incorporation of Pre-activated Crumb Rubber (PCR) at varying concentrations (2.5%, 5%, and 7.5%) by weight of the sealant. Testing was conducted on both unaged and short-term aged sealant samples with different PCR contents. The findings revealed promising improvements associated with PCR concentrations up to 5%, manifesting as enhanced elasticity, toughness, tenacity, flexibility at low temperatures, and resistance to shear thinning at high temperatures. For a content of 5% PCR, the results show a decrease of the non-recoverable creep compliance (Jnr) of 60% for 0.1kPa and 81% for 3.2kPa loading conditions when compared to the control sealant. Furthermore, an increase in toughness and tenacity of 72% and 25% respectively was measured for the aged conditions. In terms of shear thinning resistance, the coefficient “P” increased from 0.75 to 0.83 indicating a greater resistance to tracking. The results indicated favorable trends with the addition of the modifier, yielding potential improved performance in the field. •Asphalt crack sealant, being one of the cheapest maintenance activities, experiences premature failures under different climate and load conditions.•A test protocol was developed including different performance assessments to prevent typical crack sealant failure modes.•Asphalt crack sealant modification with pre-activated crumb rubber showed potential improved durability at determined optimum content.•Improved strength, toughness, recovery, flexibility at low temperatures and tracking resistance were measured for the modified material.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2024.135512