Evaluating Recycled Concrete Aggregate and Sand for Sustainable Construction Performance and Environmental Benefits

CivilEng Pub Date : 2024-05-10 DOI:10.3390/civileng5020023

Saurabh Singh, S. Singh, Mohamed Mahgoub, Shahnawaz Ahmed Mir, S. Kanga, Sujeet Kumar, Pankaj Kumar, Gowhar Meraj

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Abstract

This research investigates the potential of utilizing recycled concrete aggregate (RCA) and recycled sand (RS), derived from crushed concrete cubes, as sustainable alternatives in construction materials. The study comprehensively evaluates the properties of RCA and RS, focusing on workability, impact resistance, abrasion resistance, and compressive strength to determine their viability as substitute construction materials. A notable finding is RS’s enhanced fire and heat resistance when used as a fine aggregate in mortar blends, mixed with cement and Sinicon PP in a 3:1 ratio. The experimental analysis included thorough assessments of uniformity, durability, and curing time, alongside Scanning Electron Microscopy (SEM) for structural examination. Results show that RCA has an Aggregate Impact Value (AIV) of 5.76% and a Los Angeles Abrasion Value (LAA) of 21.78%, demonstrating excellent strength of the recycled aggregates. The mortar mix was also prepared using recycled sand, cement, and Sinicon PP, and its stability was confirmed through soundness tests, which resulted in a 0.53 mm expansion and a satisfactory consistency level of 44%. Ultrasonic pulse velocity (UPV) tests also indicated high-quality concrete formation using RCA and RS. SEM imaging corroborated this by revealing a bond between the cement paste and the aggregates. Incorporating RS and RCA in concrete mixtures impressively yielded a compressive strength of 26.22 N/mm2 in M20-grade concrete. The study concludes that using RCA and RS waste materials in the construction sector underlines that sustainable practices can be integrated without compromising material quality. This approach aligns with sustainable development goals and fosters a more environmentally friendly construction industry.

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评估再生混凝土骨料和砂的可持续建筑性能和环境效益

本研究调查了利用从破碎混凝土立方体中提取的再生混凝土骨料（RCA）和再生砂（RS）作为可持续建筑材料替代品的潜力。该研究全面评估了 RCA 和 RS 的性能，重点关注可加工性、抗冲击性、耐磨性和抗压强度，以确定它们作为替代建筑材料的可行性。一个值得注意的发现是，当 RS 作为细骨料与水泥和 Sinicon PP 按 3:1 的比例混合制成砂浆混合物时，其耐火性和耐热性得到了增强。实验分析包括对均匀性、耐久性和固化时间的全面评估，以及扫描电子显微镜（SEM）的结构检查。结果表明，RCA 的骨料冲击值（AIV）为 5.76%，洛杉矶磨损值（LAA）为 21.78%，表明再生骨料具有极佳的强度。此外，还使用再生砂、水泥和 Sinicon PP 制备了砂浆混合料，并通过声级测试确认了其稳定性，结果显示膨胀率为 0.53 毫米，稠度为 44%，令人满意。超声波脉冲速度（UPV）测试也表明，使用 RCA 和 RS 可形成高质量的混凝土。扫描电子显微镜成像也证实了这一点，显示水泥浆和骨料之间存在粘结。在混凝土混合物中加入 RS 和 RCA 后，M20 级混凝土的抗压强度达到 26.22 N/mm2，令人印象深刻。这项研究的结论是，在建筑领域使用 RCA 和 RS 废弃物强调了在不影响材料质量的情况下，可以整合可持续的做法。这种方法符合可持续发展目标，并促进了更加环保的建筑业。

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

CivilEng

CiteScore

2.80

自引率

0.00%

发文量