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

Haopeng Wang; Panos Apostolidis; Jiqing Zhu; Xueyan Liu; Athanasios Skarpas; Sandra Erkens

doi:10.1080/10298436.2020.1724289

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

Haopeng Wang^*, Panos Apostolidis, Jiqing Zhu, Xueyan Liu, Athanasios Skarpas, Sandra Erkens

^*Corresponding author for this work

Pavement Engineering

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Abstract

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.

Original language	English
Pages (from-to)	1785-1800
Number of pages	16
Journal	International Journal of Pavement Engineering
Volume	22 (2021)
Issue number	14
DOIs	https://doi.org/10.1080/10298436.2020.1724289
Publication status	Published - 2020

Keywords

chemical degradation
Crumb rubber modified bitumen
diffusion
solubility
swelling
thermodynamics

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10.1080/10298436.2020.1724289

The role of thermodynamics and kinetics in rubber bitumen systems a theoretical overviewFinal published version, 3.1 MBLicence: CC BY-NC-ND

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abstract = "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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AU - Liu, Xueyan

AU - Skarpas, Athanasios

AU - Erkens, Sandra

PY - 2020

Y1 - 2020

N2 - 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.

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

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