Experimental Analysis of Polymer Coated Aggregate in Comparison To Ordinary Road Material

IF 1 4区 工程技术 Q4 CHEMISTRY, MULTIDISCIPLINARY Iranian Journal of Chemistry & Chemical Engineering-international English Edition Pub Date : 2021-09-26 DOI:10.30492/IJCCE.2021.533421.4821
A. Ullah, A. Mushtaq, Rizwan Qamar, Zaeem Uddin Ali, S. Afshan, Aysha Rashid, Asma Waseem, Shamsah Aslam, Zamzam Zamzam
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Abstract

Worldwide the broad usage of plastic has resulted in the massive production of plastic pollution, which is incinerated, put in landfills and oceans. The technique of coating road aggregate with plastic has a good potential to deal with this global issue. The unique physical, mechanical and thermal properties polymer offers effective binding, less moisture retention, less susceptibility to void formation. This research will ultimately reflect plastic waste management and road enhancement. The main purpose of this experimental study is to predict and highlight the effect of varying plastic composition coating on aggregate and select the best performing sample. For this study, samples of polymer-coated aggregates of different ratios are created, further tested for their enhancement in properties. To create polymer-coated aggregate, we have used recycled aggregates, Grade 70 bitumen, and polyethylene bags from waste. To coat the aggregates used "dry-mix process."The effectiveness of the coating with varying plastic compositions was measured using seven different tests. It was hypothesized that incorporating plastic would enhance the properties of aggregate and increase the durability and workability of road materials. The tests results supported the hypothesis. Standard ranges were used to perform a comparative study between polymer-coated aggregate and conventional aggregate. Nearly all test's plastic composition >8% and less than 15% have shown good results, but the optimum value for all tests is achieved by sample with 12% plastic coating. Although this study supports that plastic incorporation is a better idea to enhance the longevity of roads, more research is required to explore the underlying mechanism of plastic coating and its long-term outcomes.
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高分子包覆骨料与普通路面材料对比试验分析
在世界范围内,塑料的广泛使用导致了塑料污染的大量产生,这些塑料被焚烧,扔进垃圾填埋场和海洋。公路骨料涂塑技术在解决这一全球性问题方面具有很好的潜力。独特的物理、机械和热性能聚合物提供了有效的结合,更少的水分潴留,更不易形成空洞。这项研究最终将反映塑料废物管理和道路改善。本实验研究的主要目的是预测和突出不同塑料成分涂层对骨料的影响,并选择性能最佳的样品。在这项研究中,不同比例的聚合物包覆聚集体的样品被创建,进一步测试其性能的增强。为了制造聚合物涂层骨料,我们使用了回收骨料、70级沥青和废物中的聚乙烯袋。涂覆骨料采用“干拌法”。使用7种不同的测试来测量不同塑料成分的涂层的有效性。据推测,掺入塑料会提高集料的性能,增加道路材料的耐久性和和易性。测试结果支持这一假设。采用标准范围对聚合物包覆骨料和常规骨料进行了比较研究。几乎所有塑料成分大于8%和小于15%的试验都显示出良好的结果,但所有试验的最佳值都是在涂有12%塑料涂层的样品中获得的。虽然这项研究支持塑料掺入是提高道路寿命的一个更好的主意,但需要更多的研究来探索塑料涂层的潜在机制及其长期结果。
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来源期刊
CiteScore
2.80
自引率
22.20%
发文量
0
审稿时长
6-12 weeks
期刊介绍: The aim of the Iranian Journal of Chemistry and Chemical Engineering is to foster the growth of educational, scientific and Industrial Research activities among chemists and chemical engineers and to provide a medium for mutual communication and relations between Iranian academia and the industry on the one hand, and the world the scientific community on the other.
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