振捣改性集料和同时使用胶粘剂对砂质路面路基稳定的影响

IF 0.6 Q4 ENGINEERING, CIVIL
M. Khabiri, Bahareh Ebrahimialavijeh
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引用次数: 2

摘要

摘要近年来,道路的改善、改造和维修,提高了路面中再生沥青的含量。在道路建设项目中使用这些材料,因为它们降低了成本,也将对改善环境问题有很大帮助。在本研究中,使用了沙丘沙,它可以在大多数沙漠地区的土壤中找到,但不具有适当的强度和路基承载能力。为了提高沙丘砂的强度参数,对不同含量的水泥和再生沥青进行了加州承载比和抗压强度试验。结果表明,水泥和再生沥青的掺加可以提高抗压强度和承载力,减少断裂变形。在含有27.5%再生沥青的稳定样品中,将水泥从7.5%增加到12.5%,抗压强度增加了1.045倍,这是所研究样品中变化量最大的。最大CBR和最小断裂变形与35%的再生沥青和12.5%的水泥有关。抗压强度、变形和CBR的预测函数取决于水泥含量这两个变量;然后使用响应面法计算再生沥青
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Modifying Aggregates by Rap and the Simultaneous use of Adhesives for the Stabilization of a Sandy Pavement Subgrade
Abstract The improvement, reconstruction and repair of roads in recent years have increased the content of recycled asphalt in pavements. Using these materials in road construction projects because they reduce the costs, will also be of great help in improving environmental issues. In the present study, dune sand, which can be found in most desert area soil but does not have proper strength and loading capacity for a subgrade, was used. In order to increase the strength parameters of dune sand, various contents of cement and recycled asphalt were examined in California Bearing Ratio (CBR) and compressive strength tests. The results showed that the addition of cement and recycled asphalt can increase compressive strength and bearing capacity and reduce rupture deformations. In a stabilized sample with 27.5% recycled asphalt, increasing the cement from 7.5 to 12.5% increased the compressive strength by 1.045 times, which is the highest amount of change in the samples studied. The maximum CBR and minimum rupture deformations are related to 35% of the recycled asphalt and 12.5% of the cement. The predicted functions of the compressive strength, deformation and CBR depend on two variables of the cement content; the recycled asphalt was then calculated using the response surface method
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