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Long-term performance of asphalt mixtures containing bio-extended bituminous binders: laboratory investigation and accelerated pavement testing

Jiqing Zhu, Abubeker Ahmed, Yared Dinegdae, Andreas Waldemarson, Xiaohu Lu, Patryk Jakub Witkiewicz, Kenneth Olsson

2025Road Materials and Pavement Design5 citationsDOIOpen Access PDF

Abstract

Bio-extended bituminous binders were formulated with tall oil pitch (TOP). Their corresponding asphalt mixtures were prepared. Various laboratory tests and full-scale accelerated pavement testing (APT) were conducted to evaluate their long-term performance. It is indicated that, at 25°C, the aged bio-extended 70/100 binder with 5% TOP had similar fatigue resistance to its reference. At 10°C, the aged bio-extended 160/220 binder with 21% TOP was marginally less resistant to fatigue at small strains. The asphalt mixture with bio-extended 160/220 binder had higher stiffness at 10°C and similar water sensitivity to its reference. Although the aged mixture with bio-extended binder showed higher strength to resist cracks at 5°C, it was more brittle, leading to faster crack propagation. After further moisture conditioning, the mixture became weaker but less brittle. The full-scale APT indicated that the section with bio-extended binders was more resistant to permanent deformation. Overall, the results suggest potential for larger-scale testing.

Topics & Concepts

AsphaltAsphalt pavementEnvironmental scienceTerm (time)Materials scienceForensic engineeringEngineeringGeotechnical engineeringComposite materialPhysicsQuantum mechanicsAsphalt Pavement Performance EvaluationInfrastructure Maintenance and MonitoringSmart Materials for Construction
Long-term performance of asphalt mixtures containing bio-extended bituminous binders: laboratory investigation and accelerated pavement testing | Litcius