Treated Waste Tire Using Cement Coating as Coarse Aggregate in the Production of Sustainable Green Concrete

S. Paul, S. Islam, A. Mamun, Naymul Islam, A. Babafemi, S. Kong, Md. Jihad Miah
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Abstract

Waste tire rubber is one of the most concerning environmental pollution issues. With the increasing demand for automobile production, the rate of waste tire generation has also increased. However, these tires often end up stockpiled and not properly disposed of. This non-biodegradable waste poses severe fire, environmental, and health risks. Due to the progressively severe environmental problems caused by the disposal of waste tires, the feasibility of using such elastic waste materials as an alternative to natural aggregates has become a research topic. The main objective of this research is to investigate the changes in the mechanical and durability properties of concrete with the inclusion of waste tire rubber at specific contents. A total of 80 cylinders measuring 100 mm × 200 mm were cast with waste tire aggregate as a partial replacement for natural coarse aggregate (5% and 10% by weight of natural coarse aggregate). A surface treatment of tire aggregate using a cement coating was performed to study its effect on concrete properties. This research indicates a noticeable reduction in the compressive and split tensile strength of concrete containing untreated waste tire rubber compared to normal concrete made with natural aggregates. However, an improvement was observed when the surface of tire aggregates was coated with cement grout. Additionally, it was noted that the slump value, water absorption, and porosity increased as the percentage of rubber increased. Nevertheless, unlike normal concrete, the failure pattern in tire-mixed concrete occurs gently and uniformly, indicating ductile behavior.
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用水泥涂料作粗骨料处理废旧轮胎生产可持续绿色混凝土
废旧轮胎橡胶是最受关注的环境污染问题之一。随着汽车生产需求的增加,废旧轮胎的产生率也在增加。然而,这些轮胎往往最终被储存起来,而不是妥善处理。这种不可生物降解的废物会造成严重的火灾、环境和健康风险。由于废旧轮胎的处理所引起的环境问题日益严重,利用这种弹性废料替代天然骨料的可行性已成为一个研究课题。本研究的主要目的是探讨废轮胎橡胶在特定掺量下对混凝土力学性能和耐久性的影响。用废轮胎骨料铸造了80个尺寸为100 mm × 200 mm的钢瓶,作为天然粗骨料的部分替代(天然粗骨料重量的5%和10%)。采用水泥涂层对轮胎骨料进行表面处理,研究其对混凝土性能的影响。这项研究表明,与天然骨料制成的普通混凝土相比,含有未经处理的废轮胎橡胶的混凝土的抗压强度和劈裂抗拉强度明显降低。然而,当轮胎骨料表面涂上水泥浆液时,观察到改善。此外,随着橡胶含量的增加,坍落度值、吸水率和孔隙率也随之增加。然而,与普通混凝土不同,轮胎混合混凝土的破坏模式发生缓慢而均匀,表明延性行为。
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