Parametric characterization of semi-rigid asphalt skeleton using recycled materials

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Mehran University Research Journal of Engineering and Technology Pub Date : 2023-09-29 DOI:10.22581/muet1982.2304.2890

Syed Faraz Jafri, Naeem Aziz Memon, Rizwan Ali Memon, Khawaja Sheeraz, Kamran Khan

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Abstract

Concrete Pavement with significantly good resistance to wear and tear is expensive while asphalt pavement can easily be constructed and repaired but is not durable. In considerations to cost-benefit, modification in pavement construction plays a vibrant role. Exploration in semi-rigid pavement construction is getting common. This paper signifies the viable solutions of similar pavement using recycled materials. The methodology is based on detailed analysis of laboratory experimentations within the combinations of fresh aggregates, Reclaimed Asphalt Pavement (RAP) and Construction waste (CW). Focusing blend grading, clear differences are obtained between the stabilities of grouted and un-grouted samples. Likewise in the case of 100% RAP with minimum air voids and curing time, about 300% increase in stability observed in grouted sample. The paper corresponds to save the cost of 100% fresh aggregates identifying the need of the research. Possible combinations of RAP and CW reveal the passing of certain limits through grouting.

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使用再生材料的半刚性沥青骨架的参数表征

耐磨性显著好的混凝土路面造价昂贵，而沥青路面施工和维修方便，但耐久性较差。从成本效益的角度考虑，改造在路面施工中起着重要的作用。半刚性路面施工的探索越来越普遍。提出了类似路面使用再生材料的可行解决方案。该方法基于对新鲜骨料、再生沥青路面(RAP)和建筑垃圾(CW)组合的实验室实验的详细分析。聚焦共混级配，得到了注浆样和未注浆样稳定性的明显差异。同样，在100% RAP的情况下，最小的空气空隙和固化时间，在灌浆样品中观察到的稳定性增加了约300%。本文对应于节约100%新鲜骨料的成本，确定了研究的需要。RAP和CW的可能组合揭示了注浆通过一定的极限。

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Mehran University Research Journal of Engineering and Technology ENGINEERING, MULTIDISCIPLINARY-

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审稿时长

40 weeks