Experimental assessments of methanol-based foaming agent in latex modified foamed binders and warm asphalt mixtures

Mohd Rosli Mohd Hasan , Tai Guo , Hainian Wang , Zul Fahmi Mohamed Jaafar , Zhanping You
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引用次数: 2

Abstract

Latex is one of the natural rubbers that is used to enhance the performance of asphalt pavement for the last few decades. The presence of latex, which is categorized as an elastomer, helps to improve pavement performance and durability. Conversely, higher viscosity of latex modified asphalt binder increases the production-temperatures of asphalt mixture, thus consuming higher energy during asphalt mixture’s production stage. In this study, the effectiveness of methanol as an energy-efficient foaming agent was assessed to reduce the viscosity and enhance the workability of the modified asphalt binder. The basic and rheological properties of the asphalt binders were determined through multiple laboratory tests including expansion ratio and half-life, rotational viscosity, softening point, torsional recovery, and dynamic shear rheometer. The properties of asphalt mixtures were assessed through the service characteristics, mechanical performance, and moisture resistance criteria. It was found that the presence of latex results in an approximately twofold higher expansion ratio and a lower half-life of the asphalt binder at about the same ratio. Through the rotational viscosity test, the application of methanol into asphalt binder decreased the viscosity and led to better workability, despite the addition of latex as an asphalt modifier. The application of methanol into asphalt binder improved the workability of mixture samples and lowered the compaction energy of the compaction process, which are the crucial criteria for a better mixing and compaction process. Methanol foamed asphalt mixtures with latex show much higher resistance to moisture damage and stiffness than control sample even though they were prepared at a lower temperature.

Abstract Image

甲醇基发泡剂在乳胶改性泡沫粘结剂和温沥青混合料中的试验评价
乳胶是一种天然橡胶,在过去的几十年里被用来提高沥青路面的性能。乳胶被归类为弹性体,它的存在有助于改善路面性能和耐久性。反之,胶乳改性沥青粘结剂粘度越高,沥青混合料的生产温度越高,在沥青混合料生产阶段消耗的能量越高。在本研究中,评估了甲醇作为节能发泡剂的有效性,以降低改性沥青粘结剂的粘度,提高其和易性。通过多种实验室测试,包括膨胀率和半衰期、旋转粘度、软化点、扭转恢复和动态剪切流变仪,确定了沥青粘合剂的基本和流变特性。通过使用特性、力学性能和抗湿性标准对沥青混合料的性能进行了评价。结果表明,胶乳的存在使沥青粘结剂的膨胀率提高了约两倍,并使其半衰期缩短。通过旋转粘度测试,尽管添加乳胶作为沥青改性剂,但在沥青粘结剂中加入甲醇降低了粘度,使其具有更好的和易性。甲醇在沥青粘结剂中的应用提高了混合料样品的和易性,降低了压实过程的压实能量,这是更好的混合和压实工艺的关键标准。甲醇发泡乳胶沥青混合料在较低的温度下制备,其抗湿损伤性和刚度都比对照样品高得多。
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