废轮胎碎水泥基的物理力学性能评价

Q3 Earth and Planetary Sciences Scientific Review Engineering and Environmental Sciences Pub Date : 2023-09-22 DOI:10.22630/srees.4942
Samy Mezhoud, Hacene Badache
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引用次数: 0

摘要

人行道在促进安全高效的交通中起着关键作用。然而,传统的路面建设消耗大量的原始资源,需要转向可持续的替代品。本研究探讨了将破碎的废轮胎作为水泥处理基层(CTB)层中砂石的部分替代品,以提高路面的可持续性。CTB混合物经过精心配制并测试了其物理和机械性能。结果表明,虽然废轮胎骨料的存在影响了新鲜状态流变学,但固化状态性能仍然令人满意,经常超过规范要求。值得注意的是,添加10%的橡胶粉增强了CTB混合物的力学性能,总体上表现出可接受的收缩率值。研究结果为设计弹性和可持续的路面系统提供了见解,通过使用破碎的废轮胎,符合现代基础设施的需求。
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Evaluation of physical and mechanical properties of cement-treated base incorporating crushed waste tires
Pavements play a pivotal role in facilitating safe and efficient transportation. However, conventional pavement construction consumes substantial virgin resources, necessitating a shift towards sustainable alternatives. This study explores the integration of crushed waste tires as partial replacements for sand and gravel in cement-treated base (CTB) layers, aiming to enhance pavement sustainability. The CTB mixtures were meticulously formulated and tested for their physical and mechanical properties. Results revealed that while the presence of waste tire aggregates affected the fresh-state rheology, the cured-state performance remained satisfactory, often exceeding normative requirements. Notably, the addition of 10% rubber powder enhanced the mechanical performance of the CTB mixtures and overall exhibited acceptable shrinkage values. The findings offer insights into designing resilient and sustainable pavement systems by using crushed waste tires, aligning with modern infrastructure demands.
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来源期刊
Scientific Review Engineering and Environmental Sciences
Scientific Review Engineering and Environmental Sciences Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
1.50
自引率
0.00%
发文量
24
审稿时长
26 weeks
期刊介绍: Scientific Review Engineering and Environmental Sciences [Przegląd Naukowy Inżynieria i Kształtowanie Środowiska] covers broad area of knowledge and practice on fields such as: sustainable development, landscaping of non-urbanized lands, environmental engineering, construction projects engineering land management, protection and land reclamation, environmental impact of investments, ecology, hydrology and water management, ground-water monitoring and restoration, geotechnical engineering, meteorology and connecting subjects. Authors are welcome to submit theoretical and practice-oriented papers containing detailed case studies within above mentioned disciplines. However, theoretical papers should contain part with practical application of the theory presented. Papers (in Polish or English languages) are accepted for publication after obtaining positive opinions of two reviewers. Papers published elsewhere are not accepted.
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