An Investigation into the Behavior of Disposable Face Masks in Modified Bitumen for Sustainable Transportation Pathways

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Syahirah Mansor, Nur Amirah Mohd Zamri, Zanariah Abd Rahman, Rozaini Ramli, Ahmad Kamil Arshad
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Abstract

Since December 2019, COVID-19 infection rates have risen considerably, and the virus is currently widespread around the world. Following the COVID-19 outbreak, the production of medical waste has skyrocketed. Disposable face masks are considered medical waste. Alternative measures must be implemented to assist in reducing medical waste disposal, which can result in serious public health problems and have a negative influence on the environment. In this regard, this research was conducted to investigate the effect of disposable face mask (DFM) ash with varied rates ranging from 5% to 20% by weight on bitumen with a 5% increment to be utilised as an alternative material in asphalt pavement. A series of physical and rheological tests were conducted on the bitumen samples to study the behavior of the DFM ash in bituminous material. Overall, the physical and rheological test results revealed that introducing 20% DFM ash to the modified bitumen was unable to achieve the same properties as with the conventional SMA14 asphalt binder. However, the modified bitumen penetration grade PEN 60/70 has improved the properties and quality of the asphalt in the flexible pavement. In addition, utilising the DFM waste in road construction would be a sustainable technique for protecting the environment by minimising face mask waste caused by the COVID-19 epidemic while lowering the pavement’s construction cost. These research findings may be commercialised to generate revenue in the construction industry for sustainable transportation pathways.
可持续交通路径中改性沥青一次性口罩的性能研究
自2019年12月以来,COVID-19感染率大幅上升,目前该病毒在全球广泛传播。新冠肺炎疫情爆发后,医疗废物的产生量激增。一次性口罩被认为是医疗废物。必须实施替代措施,以协助减少医疗废物的处置,因为这可能导致严重的公共卫生问题,并对环境产生负面影响。在这方面,本研究旨在调查一次性面罩(DFM)灰分对沥青的影响,其含量从重量的5%到20%不等,增加5%作为沥青路面的替代材料。对沥青样品进行了一系列的物理和流变试验,研究了DFM灰分在沥青材料中的行为。总体而言,物理和流变学测试结果表明,在改性沥青中加入20%的DFM灰无法获得与常规SMA14沥青粘合剂相同的性能。而PEN 60/70渗透等级的改性沥青改善了柔性路面沥青的性能和质量。此外,在道路建设中利用DFM废物将是一种可持续的技术,可以最大限度地减少因COVID-19疫情造成的口罩浪费,同时降低路面的建设成本,从而保护环境。这些研究成果可以商业化,为建筑行业创造可持续交通途径的收入。
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-
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16.70%
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24 weeks
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