Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/15859
Title: Properties of self-compacting concrete containing granite dust particles
Authors: Apeh, Joseph, A.
Keywords: Self-compacting concrete, Quarry dust fine powder, fresh and mechanical properties, pozzolanic reaction, compressive strength
Issue Date: 22-Jan-2019
Publisher: Challenge journal of Concrete research letters
Series/Report no.: 10(21) (2019) 34 - 41;
Abstract: In the course of production in the granite industry, alot of quarry dust wastes is generated which is either heaped at sites causing environmental and health hazards or dumped in landmills causing ecological problems. It is imperative to evolve a viable option for disposal so as to rid the environment of this menace. This study investigated the use of quarry dust particles (QDP) generated from the granite industry as a cement replacement in self-compacting concrete (SCC). the experimental program was carried out in two phases; the first phase optimised the amount of QDP as replacement of Portland cement (PC) with acceptable flow ability. The second phase evaluated the fresh and hardened properties of SCC, which includes test on slump flow, J-ring and L-Box to determine the filling and passing abilities of SCC, while compressive and splitting tensile tests were conducted to determine the compressive and splitting tensile strength respectively. Test results show that at 20% replacement of cement with QD, the SCC-QD mixes had a slump ranged from 642 to 730 mm compared with 578 mm for SC mix, a compressive strength of 37 N/mm2 compared with 30 N/mm2 for SCC. . This was enhanced by QDP which filled the voids between the coarse grains of cement and water molecules which facilitated the flow ability of the mixes and then at later ages reacted with liberated calcium hydroxide from cement hydration to enhance the strength of the mixes. The results then indicated that QDP can be used to replace PC up to 20 % by mass of PC in the production of SCC without adverse effect on both fresh and hardened properties . The results also show that QDP, a suitable material can be used to reduce demand for cement thus reducing carbon dioxide emission and also solve other environmental problems.
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/15859
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