Evaluation of Oxidization of Crumb Rubber–Modified Asphalt during Short-Term Aging

Ghavibazoo, Amir; Abdelrahman, Magdy; Ragab, Mohyeldin

doi:10.3141/2505-11

Cited by 30 publications

(11 citation statements)

References 21 publications

(26 reference statements)

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“…This finding is also consistent with previous studies [30]. This is possibly because CRM continued to interact with bitumen during the short-term aging through absorption of aromatics and swelling [31]. In addition, some aromatic rings fuse to produce more asphaltenes.…”

Section: Ftir Analysissupporting

confidence: 92%

Effect of laboratory aging on chemistry and rheology of crumb rubber modified bitumen

et al. 2020

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Aging during construction and in-service substantially changes the chemical composition and physical properties of bitumen thereof influences the performance of asphalt pavements. The modification of bitumen by crumb rubber modifier (CRM) significantly increases the complexity of the aging mechanism and is expected to improve the aging resistance of bitumen. This study aims to investigate the effects of laboratory short-term and long-term aging on the chemistry and rheology of crumb rubber modified bitumen (CRMB). Neat bitumen and CRMB with four different CRM contents were studied. Fourier transform infrared spectroscopy and dynamic shear rheometer were employed to measure the change in the chemical composition and rheological properties of binders at different aging states. Bitumen hardening, which was rheologically revealed by the frequency sweep and multiple creep recovery test results, was also reflected in the growth of carbonyl and sulfoxide functional groups. In addition, the aliphaticity and aromaticity indices of binders before and after aging were also investigated. CRMB binders showed improved aging resistance compared to neat bitumen as reflected by the decreased carbonyl and sulfoxide indices as well as the lower change in rheological parameters. Higher resistance against aging was achieved when increasing the CRM content. The results also highlight the correlation between chemistry and rheology of bitumen. Among six selected mechanical parameters of binder, the nonrecoverable creep compliance and percent recovery show better correlations with the combined chemical aging index (sum of carbonyl and sulfoxide indices) than the parameters derived from the linear viscoelastic region.

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Section: Ftir Analysissupporting

confidence: 92%

Effect of laboratory aging on chemistry and rheology of crumb rubber modified bitumen

et al. 2020

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“…Considering the large proportion of these non-polymer components, the effects of their release into bitumen on the binder properties cannot be ignored. It was reported that these non-polymer components significantly influence the ageing and rheological properties of CRMB (Ghavibazoo et al 2015, Wang et al 2019c.…”

Section: Other Component Exchangementioning

confidence: 99%

The role of thermodynamics and kinetics in rubber–bitumen systems: a theoretical overview

Wang

Apostolidis

Zhu

et al. 2020

International Journal of Pavement Engineering

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Waste tire rubber has been incorporated into asphalt modification for decades due to its various benefits. There are two main mechanisms during bitumen-rubber interaction: rubber swelling and chemical degradation. This study surveys these two processes from the viewpoint of polymer science. The kinetics of rubber dissolution and thermodynamics of rubber swelling are discussed to provide a fundamental understanding of the interaction process and to demonstrate how optimisation of material selection and processing procedures can lead to the desired binder properties. Factors including the interaction conditions and raw material characteristics are analysed based on the previous theories and compared with experimental results.

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“…These values reveal a lower aging susceptibility of CR-modified mixtures in comparison with a conventional SDA mixture. This behavior has been previously related to the effect of certain antioxidant compounds used in the tire fabrication process [37]. However, it is highly recommended to validate these results by means of specific tests (e.g., stiffness and fatigue tests).…”

Section: Marshall Testmentioning

confidence: 75%

Recyclability of Asphalt Mixtures with Crumb Rubber Incorporated by Dry Process: A Laboratory Investigation

et al. 2020

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Semi-Dense Asphalt (SDA) mixtures are nowadays recommended for the surface layer of low noise roads in urban areas due to their optimal functional characteristics. Moreover, the use of polymer-modified bitumen (PmB) in its design results in high mechanical performance. However, this type of highly modified bitumen implies significant economic and environmental disadvantages. The polymer modification increases the production cost, involves higher mixing temperatures, and makes the recycling process of the asphalt mixtures challenging. As a potential alternative to PmB in SDA mixtures, this experimental work analyses the dry process for the incorporation of crumb rubber (CR) from waste tires. Particularly, the main objective was to study the aging effect and the recyclability of asphalt mixtures prepared in the laboratory with two different types of CR. The volumetric properties and mechanical performance of the mixtures artificially aged and rejuvenated were evaluated. The results obtained show that mixtures with CR have adequate performance, being less susceptible to aging than a conventional polymer-modified mixture. Furthermore, the rheological response of asphalt binder samples recovered from the mixtures at different aging states was analyzed. It was observed that the effect of the rejuvenator depended on the CR type, but this fact did not negatively influence the performance of the recycled mixtures.

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Evaluation of Oxidization of Crumb Rubber–Modified Asphalt during Short-Term Aging

Cited by 30 publications

References 21 publications

Effect of laboratory aging on chemistry and rheology of crumb rubber modified bitumen

Effect of laboratory aging on chemistry and rheology of crumb rubber modified bitumen

The role of thermodynamics and kinetics in rubber–bitumen systems: a theoretical overview

Recyclability of Asphalt Mixtures with Crumb Rubber Incorporated by Dry Process: A Laboratory Investigation

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