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The investigation of rheological properties of rejuvenated asphalt binder with waste cooking oil as rejuvenator

粘弹性 沥青 流变学 车辙 材料科学 蠕动 沥青路面 动态模量 复合材料 环境污染 混合(物理) 食用油 环境科学 聚合物 动态力学分析 生物柴油 化学 催化作用 物理 量子力学 生物化学 环境保护
作者
Shobhit Jain,Praveen Shakyawar,Shivam Singh,Anush K. Chandrappa
出处
期刊:International journal of transportation science and technology [Elsevier BV]
卷期号:18: 305-314 被引量:1
标识
DOI:10.1016/j.ijtst.2024.07.009
摘要

Asphalt binder plays a significant role in the performance of asphalt pavement. However, due to the limited availability of crude oil and the increasing cost of asphalt, alternatives are being investigated. Reclaimed asphalt pavements (RAP) provide a sustainable solution for the increasing demand of asphalt. However, the amount of RAP which can be utilized in asphalt mixtures is limited due to production and performance issues. Incorporation of high RAP content calls for rejuvenators, which rejuvenate the aged binder and increases the degree of blending. Among various rejuvenators, waste cooking oil (WCO) is gaining increased attention due to its availability and concern towards environmental pollution. When combined in proper proportions with RAP, WCO is a potential rejuvenator, which restores the properties of aged binder to that of unaged asphalt binder. This addresses two problems simultaneously and can greatly benefit the economy and environment. This study focuses on the viscoelastic and rheological properties of the rejuvenated binder with WCO and RAP. The rheological properties are evaluated using frequency sweep test by assessing the complex shear modulus and rutting parameter of different binders. The viscoelastic properties are studied using multiple stress creep recovery (MSCR) test. The data of the MSCR test is analysed with the Burger model to understand the viscoelastic properties of the rejuvenated RAP binder. For each of 75, 60 and 45% RAP, three different oil proportions are selected, and the optimum WCO content is identified. The study concludes that higher RAP content results in lower viscous strain and higher elastic strain, whereas after mixing of higher WCO, the viscous strain increases, and elastic strain decreases. Hence, it is crucial to mix WCO and RAP in the optimum ratio to obtain the desired rheological and viscoelastic properties.

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