Using Cement as Filler to Enhance Asphalt Mixes Performance in Hot Climate Regions

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Aioub Guha, Gabriel Assaf
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Abstract

This paper investigates the addition of different percentages of ordinary Portland cement as a filler in conventional asphalt concrete for a range of heavy traffic. Road pavement agencies in hot areas face the daunting challenge of preserving their pavements in a fair to good condition to increase their lifespan. This challenge is due to the high occurrence of permanent pavement deformation via rutting, which is one of the major distress factors influencing pavements. This is a particularly serious issue in hot and arid countries which are closely associated with various aggravating factors. These aggravating factors include the choice of bitumen binder viscosity, the type of bitumen, the available low-quality materials, and the high environmental temperatures. Ultimately, poor performance will show within the first few years of service as permanent deformations such as rutting, shoving, and depressions. The examined properties include the resilient modulus and the resistance to rutting. Findings indicate that the resistance to rutting and the rigidity of the asphalt concrete are both substantially increased as the cement content is increased. Moreover, to meet the heavy traffic spectrum requirements, increasing the embedded cement content in the asphalt concrete improves pavement structural capacity. Finally, based on the rigidity expected for different cement levels, design curves are provided for pavement design in hot climates using low quality aggregate materials.
用水泥作为填料提高高温地区沥青混合料的性能
本文研究了在常规沥青混凝土中添加不同比例的普通硅酸盐水泥作为填料,以适应各种繁忙交通。炎热地区的道路铺路机构面临着艰巨的挑战,即保持路面的良好状况,以延长其使用寿命。这一挑战是由于车辙引起的永久性路面变形的高发生率,车辙是影响路面的主要困扰因素之一。这在炎热和干旱的国家是一个特别严重的问题,与各种恶化因素密切相关。这些加剧因素包括沥青粘结剂粘度的选择、沥青的类型、可用的低质量材料以及较高的环境温度。最终,较差的性能将在最初的几年内表现为永久性变形,如车辙,推挤和凹陷。测试的性能包括弹性模量和抗车辙性能。结果表明,随着水泥掺量的增加,沥青混凝土的抗车辙性能和刚度均显著提高。此外,为了满足高交通频谱的要求,增加沥青混凝土中预埋水泥的含量可以提高路面的结构能力。最后,根据不同水泥水平的期望刚度,提供了在炎热气候下使用低质量骨料的路面设计曲线。
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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来源期刊
Jurnal Kejuruteraan
Jurnal Kejuruteraan ENGINEERING, MULTIDISCIPLINARY-
自引率
16.70%
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0
审稿时长
24 weeks
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