Effect of Stirring Speed in Hot Mixing Process of Modified Asphalt with SBS Copolymer on Polymeric Distribution and its Rheological Properties

MRS Proceedings Pub Date : 2016-12-01 DOI:10.1557/OPL.2016.5

E. García, R. H. Nájera

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引用次数: 8

Abstract

The current work reports the effect of particle size on the rheological behavior of polymer modified asphalt PMA. The modified asphalt was generated with AC-20 asphalt precursor provided by Pemex Salamanca and Solprene® 416 provided by Dynasol Mexico. Solprene® 416 is a SBS star-type copolymer with 4 poly(b-styrene-b-butadiene) arms and Mw = 2.36X105 g/gmole. Modified asphalt samples were prepared with 3 wt % of SBS via hot mix process. Mixing time and temperature were kept constant at 4h and 180 °C. This study also varied the agitation in the mixing process: 500, 1000 and 1500 rpm. All PMAs shown sphere-shaped polymer particles as observed via fluorescent microscopy using a Carl Zeiss KS-300 system. Base asphalt and PMAs were also characterized through rheological measurements using a TA Instruments AR-G2 rheometer. Shear viscosity (η) and tan δ data shown that the flow resistance of the PMA increases as the size its polymer particles decreases. Since the size of the polymer particles decreases with the increase of the stirring speed, it is concluded that the stirring speed of the process determines the size of the polymer particles and so the mechanical resistance of the PMA.

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SBS共聚物改性沥青热混过程中搅拌速度对聚合物分布及流变性能的影响

本文报道了聚合物改性沥青聚丙烯酸甲酯的粒径对其流变行为的影响。改性沥青由Pemex Salamanca提供的AC-20沥青前驱体和Dynasol Mexico提供的Solprene®416合成。Solprene®416是一种SBS星型共聚物，具有4个聚(b-苯乙烯-b-丁二烯)臂，分子量为2.36 × 105克/摩尔。采用热混合法制备了SBS含量为3wt %的改性沥青样品。混合时间和温度保持在4h和180℃不变。本研究还改变了混合过程中的搅拌:500、1000和1500 rpm。通过卡尔蔡司KS-300系统的荧光显微镜观察，所有pma均显示球形聚合物颗粒。基础沥青和pma也通过使用TA Instruments AR-G2流变仪进行流变学测量来表征。剪切粘度(η)和tan δ数据表明，PMA的流动阻力随着聚合物颗粒尺寸的减小而增大。由于聚合物颗粒的尺寸随着搅拌速度的增加而减小，因此可以得出结论，搅拌速度决定了聚合物颗粒的尺寸，从而决定了PMA的机械阻力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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