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Title: The engineering, economic, and environmental performance of terminal blend rubberized asphalt binders with wax-based warm mix additives
Authors: Wen, Y 
Wang, YH 
Zhao, KC 
Chong, D
Huang, WD
Hao, GR 
Mo, SC 
Keywords: Wax-based additive
Crumb rubber
Terminal blend
Energy consumption
Issue Date: 2018
Publisher: Elsevier
Source: Journal of cleaner production, 20 May 2018, v. 184, p. 985-1001 How to cite?
Journal: Journal of cleaner production 
Abstract: Produced with fine crumb rubber (CR) particles and at demanding conditions, Terminal Blend (TB) asphalt binder is an alternative approach to incorporating CR from scrap tires into asphalt binders. It offers the advantages of convenient transportation, storage, and usage at asphalt mixture plants. In the study as presented in this paper, Sasobit (R) and Polyethylene (PE) wax were used as warm-mix additives to further modify the properties of TB asphalt binders. These additives are anticipated to reduce the production temperatures of TB asphalt mixtures, hence reducing fuel consumption and greenhouse gas (GHG) emissions in mixture production and reducing asphalt fumes in construction. It is also anticipated that the engineering performance of TB asphalt binders modified with such additives are not adversely affected. To gain a comprehensive understanding of TB asphalt binders modified with the two additives, a variety of laboratory tests were conducted, including storage stability, high temperature performance, low temperature performance, fatigue, and other basic rheological properties. The costs of producing TB asphalt mixtures with or without the additives were compared, using the conventional hot-mix asphalt mixtures as a reference. Energy consumptions and GHG emissions generated in mixture production were also evaluated. Actual field construction was performed using TB asphalt mixtures with Sasobit (R) and using conventional asphalt mixtures. Both aerosol and volatile organic compounds (VOCs) samples were collected at zones close to the loose mixtures and were analyzed. The two wax -based additives were found to enhance the storage stability and workability of the TB binders. The other engineering properties related to the use of wax -based additives are mixed. The selection of right type of additive depends on local climate conditions. While the costs of using the TB binders (with or without additives) are higher than the costs of using the base (neat) asphalt binder. Energy consumptions and GHG emissions in mixture production are reduced when the additives are used. Asphalt fumes generated from the base asphalt binder and the TB binder with Sasobit (R) are comparable. In general, the incorporation of wax based additives into TB asphalt binder offers a cleaner way of using recycled crumb rubber.
ISSN: 0959-6526
DOI: 10.1016/j.jclepro.2018.03.011
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