利用废铸造砂制备的自密实混凝土在工程特性和生命周期评估方面的性能评估

IF 4.6 Q2 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Recycling Pub Date : 2024-06-01 DOI:10.3390/recycling9030047
Ranjitha B. Tangadagi, P. T. Ravichandran
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引用次数: 0

摘要

本研究的主要目的是利用工业废料副产品,如铸造废砂(WFS),作为自密实混凝土(SCC)中细骨料的替代品。本研究的重点是在自密实混凝土中使用废铸造砂,以提高耐久性和机械性能,找到自密实混凝土中细骨料的替代品,减少废铸造砂的处理难题,并使自密实混凝土轻质环保。最初,WFS 经过化学(H2SO4)处理、离析和筛分,以去除异物和粘土成分。在本研究中,考虑了不同比例的 WFS,如 0、10、20、30、40 和 50。根据印度标准和 EFNARC 准则,本研究考虑使用 M60 级 SCC。然后,本研究重点测试了每批 SCC 的各种新鲜特性,以了解使用 WFS 制备的各种混合料的流动性和通过能力。同样,还分别在 7 天、28 天和 90 天固化期进行了抗压、抗弯和劈裂拉伸强度等 SCC 力学性能测试。同样,使用 WFS 制备的所有混合料都具有 SCC 的耐久性能,如吸水性、吸附性、抗化学侵蚀性和氯离子渗透性;这些性能的测试分别在 28 天和 90 天的固化期进行。根据对 SCC 的实验研究发现,在 M60 级 SCC 中使用 WFS 可替代 30% 的细集料,而不会对其性能造成太大影响。最后,这证明了在水泥混凝土中使用经过处理的 WFS 有助于减少废物的产生,是一种有意义的利用方法。这项研究还将证明,使用经过处理的 WFS 可以降低密度,使 SCC 成为一种轻质、绿色和可持续的材料。
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Performance Evaluation of Self-Compacting Concrete Prepared Using Waste Foundry Sand on Engineering Properties and Life Cycle Assessment
The primary objective of this research is to utilize an industrial waste byproduct such as waste foundry sand (WFS) as an alternative for fine aggregate in self-compacting concrete (SCC). This research focuses on the use of WFS in SCC to enhance durability and mechanical properties, to find an alternative for fine aggregate in SCC, to reduce the disposal challenges of WFS, and to make SCC lightweight and environmentally friendly. Initially, WFS was treated with chemical (H2SO4), segregating, and sieving to remove the foreign matter and clay content. For this study, WFS is considered in varying percentages such as 0, 10, 20, 30, 40, and 50. For this investigation, M60 grade SCC is considered as per Indian standards and EFNARC guidelines. After that, this research focuses on tests on various fresh properties of SCC in each batch to find the flowability and passing ability of various mixes prepared using WFS. Similarly, the mechanical properties of SCC such as compressive, flexural, and split tensile strength tests were performed at 7, 28, and 90 day curing periods, respectively. Likewise, durability properties of SCC were found in all the mixes prepared using WFS such as water absorption, sorptivity, resistance to chemical attack, and chloride ion penetration; tests of these properties were performed at 28 and 90 day curing periods, respectively. Based on the experimental investigation of SCC, it was found that WFS can be used in M60 grade SCC as an alternative for fine aggregate up to 30% without compromising much on its properties. Finally, this establishes that using treated WFS in SCC helps in reducing the generation of waste and prevails as a meaningful utilization method. This research will also establish that the use of treated WFS will reduce the density and make SCC a lightweight, green, and sustainable material.
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来源期刊
Recycling
Recycling Environmental Science-Management, Monitoring, Policy and Law
CiteScore
6.80
自引率
7.00%
发文量
84
审稿时长
11 weeks
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