A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Ceramic Tiles Waste as Coarse Aggregate Filler Replacement in Concrete
This research looked at varying percentages of natural coarse aggregate partially substituted with Coarse Ceramic Aggregate (CCA) in the same mixture design as normal-weight concrete. CCA can be obtained from construction waste due to the end of the life cycle of a building after demolition. This research looks at the behaviour of various percentages of partial replacement with CCA in terms of compressive strength and workability in each concrete mixture cast. According to the findings, the ideal proportion of partially replaced CCA is approximately 10% to 30%, resulting in a considerably greater compressive strength output. Meanwhile, partial replacement at 40% revealed that compressive strength was about the same as normal-weight concrete. Furthermore, of all the percentages, the 50% partially replacement batch has the lowest compressive strength and is significantly lighter than normal-weight concrete. In a word, CCA is feasible to be adopted as construction material in terms of application to partially replace regular coarse aggregate in concrete casting due to its compressive strength characteristics and workability behaviour.
Ceramic Tiles Waste as Coarse Aggregate Filler Replacement in Concrete
This research looked at varying percentages of natural coarse aggregate partially substituted with Coarse Ceramic Aggregate (CCA) in the same mixture design as normal-weight concrete. CCA can be obtained from construction waste due to the end of the life cycle of a building after demolition. This research looks at the behaviour of various percentages of partial replacement with CCA in terms of compressive strength and workability in each concrete mixture cast. According to the findings, the ideal proportion of partially replaced CCA is approximately 10% to 30%, resulting in a considerably greater compressive strength output. Meanwhile, partial replacement at 40% revealed that compressive strength was about the same as normal-weight concrete. Furthermore, of all the percentages, the 50% partially replacement batch has the lowest compressive strength and is significantly lighter than normal-weight concrete. In a word, CCA is feasible to be adopted as construction material in terms of application to partially replace regular coarse aggregate in concrete casting due to its compressive strength characteristics and workability behaviour.
Ceramic Tiles Waste as Coarse Aggregate Filler Replacement in Concrete
Engineering Materials
Rahman, Md Rezaur (editor) / Mei Yun, Chin (editor) / Bakri, Muhammad Khusairy Bin (editor) / Yun, Chin Mei (author) / Rahman, Md Rezaur (author) / Huda, Durul (author) / Kuok, Kuok King (author) / Sze, Amelia Chai Pei (author) / Sering, Rudison Anak (author) / Bakri, Muhammad Khusairy Bin (author)
2022-03-31
18 pages
Article/Chapter (Book)
Electronic Resource
English
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