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A platform for research: civil engineering, architecture and urbanism
Study On Partial Replacement Of E-Plastic Waste As Coarse Aggregates
The electronics sector has been experiencing fast expansion, owing to constant technological advancements and the introduction of new technologies to the market. As a result, e-plastic waste has become one of the world’s fastest growing solid wastes. This paper outlines the experimental work carried for the partial replacement of e-plastic in volumes of 5%,10%,15% and 20% as coarse aggregates. On hardened concrete, strength tests were performed. The results reveal that using e-plastic waste as coarse aggregates results in concrete that is substantially more workable and less dense. This research presents a costeffective, environmentally acceptable, and efficient disposal solution for e-plastic waste, which can be used as a partial replacement for coarse aggregates in concrete. Researchers have recently begun to examine an alternate source of aggregate in concrete by employing e-plastic waste as a building material, which increases the water retention characteristic of new mortar while lowering the bulk density of hardened mortar.
Study On Partial Replacement Of E-Plastic Waste As Coarse Aggregates
The electronics sector has been experiencing fast expansion, owing to constant technological advancements and the introduction of new technologies to the market. As a result, e-plastic waste has become one of the world’s fastest growing solid wastes. This paper outlines the experimental work carried for the partial replacement of e-plastic in volumes of 5%,10%,15% and 20% as coarse aggregates. On hardened concrete, strength tests were performed. The results reveal that using e-plastic waste as coarse aggregates results in concrete that is substantially more workable and less dense. This research presents a costeffective, environmentally acceptable, and efficient disposal solution for e-plastic waste, which can be used as a partial replacement for coarse aggregates in concrete. Researchers have recently begun to examine an alternate source of aggregate in concrete by employing e-plastic waste as a building material, which increases the water retention characteristic of new mortar while lowering the bulk density of hardened mortar.
Study On Partial Replacement Of E-Plastic Waste As Coarse Aggregates
Roopa, M. (author) / Das, Sriraksha R. (author) / Sanjana, M. (author) / Thungashree, B. S. (author)
2022-07-12
doi:10.18311/jmmf/2022/30678
Journal of Mines, Metals and Fuels; Volume 70, Issue 3A, March 2022; 114-119 ; 0022-2755
Article (Journal)
Electronic Resource
English
DDC:
690
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