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Atomic insight into the nano-cracking behaviour of bitumen: considering oxidative aging effects

Lei Luo, Pengfei Liu, Sabine Leischner, Markus Oeser

2023Road Materials and Pavement Design13 citationsDOI

Abstract

Experimental understanding of the nanoscale cracking mechanism in bitumen is challenging. This paper adopts molecular dynamics simulation to study the loading-induced cracking behaviour from four aspects: (1) stress-displacement states; (2) morphology evolution; (3) energy contribution; and (4) the relationship with chemical compositions. Simulation results indicated that the nano-cracking process can be divided into the following stages: increase of free volume (stage I), formation of nanovoids, (stage II), nucleation and propagation (stage III), filamentation (stage IV) and separation (stage V). The density drop was observed in the area where saturates agglomerated, which potentially caused the formation of nanovoids. Energy analysis indicated that the cracking behaviour was related to the non-bond interaction, especially van der Waals interaction. Oxidative aging increased the intermolecular bonding and reduced the molecular mobility, which resulted in larger tensile strength but lower ductility. In addition, the effects of temperature on the nano-cracking behaviour were also presented.

Topics & Concepts

Materials scienceCrackingNucleationCoalescence (physics)van der Waals forceComposite materialMolecular dynamicsDuctility (Earth science)Ultimate tensile strengthDrop (telecommunication)AsphaltCreepComputational chemistryChemistryMoleculeOrganic chemistryComputer scienceAstrobiologyPhysicsTelecommunicationsAsphalt Pavement Performance EvaluationPetroleum Processing and AnalysisInfrastructure Maintenance and Monitoring