Effect Of Using Stone Cutting Waste On The Compression Strength And Slump Characteristics Of Concrete
Autor: | Alzboon, Kamel K., N.Mahasneh, Khalid |
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Jazyk: | angličtina |
Rok vydání: | 2009 |
Předmět: | |
DOI: | 10.5281/zenodo.1055566 |
Popis: | The aim of this work is to study the possible use of stone cutting sludge waste in concrete production, which would reduce both the environmental impact and the production cost .Slurry sludge was used a source of water in concrete production, which was obtained from Samara factory/Jordan, The physico-chemical and mineralogical characterization of the sludge was carried out to identify the major components and to compare it with the typical sand used to produce concrete. Samples analysis showed that 96% of slurry sludge volume is water, so it should be considered as an important source of water. Results indicated that the use of slurry sludge as water source in concrete production has insignificant effect on compression strength, while it has a sharp effect on the slump values. Using slurry sludge with a percentage of 25% of the total water content obtained successful concrete samples regarding slump and compression tests. To clarify slurry sludge, settling process can be used to remove the suspended solid. A settling period of 30 min. obtained 99% removal efficiency. The clarified water is suitable for using in concrete mixes, which reduce water consumption, conserve water recourses, increase the profit, reduce operation cost and save the environment. Additionally, the dry sludge could be used in the mix design instead of the fine materials with sizes < 160 um. This application could conserve the natural materials and solve the environmental and economical problem caused by sludge accumulation. {"references":["Almeida Nuno, Branco Fernando, Santos José Roberto, 2007, Recycling\nof stone slurry in industrial activities: Application to concrete mixtures,\nBuilding and Environment, 42(2): 810-819.","Turgut, P. and Algin, H.M., 2007. Limestone dust and wood sawdust as\nbrick material. 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