International Journal of Sustainable Development Research
Volume 3, Issue 6, November 2017, Pages: 85-89
Received: Sep. 23, 2017;
Accepted: Oct. 20, 2017;
Published: Dec. 27, 2017
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Yasir Awad Allah Mohamed, Chemical Engineering Department Engineering College, Elimam Elmahdi University, Kosti, Sudan
Shihab Ali Khalifa, Nile Cement Factory, Kosti, Sudan
Salah Eldeen Fadoll Hegazi, Chemical Engineering Department, Jazan University, Jazan, Saudi Arabia; Chemical Engineering Department, Jazan University, Jazan, Saudi Arabia
Hassan Abd Elwahab, Mechanical Engineering Department Engineering College, Elimam Elmahdi University, Kosti, Sudan
The utilization of agricultural waste produced by different industrial processes has attracted the researchers attention. In this paper the influence of sugarcane bagasse ash (SCBA) as an additive in enhancing the properties of the portland cement was investigated. Thus, the ordinary Portland cement (OPC) was partially modified by adding fine sugarcane bagasse ash. The bagasse ash was sieved through No. 600 sieve, then the concrete and mortar mixtures samples were modified by adding 0%, 5%, 10%, 15%, and 20% of BA respectively. The physical characteristics and chemical composition of the bagasse ash and cement mixtures analyzed and tested in Nile Cement Company). The obtained samples were examined and compared with the ordinary cement. The result revealed that addition of bagasse ash to cement up to 15% has improved the compressive strength of mortar. While the addition of 20% bagasse ash to cement results in decreasing the soundness of the cement and improving its fineness.
Yasir Awad Allah Mohamed,
Shihab Ali Khalifa,
Salah Eldeen Fadoll Hegazi,
Hassan Abd Elwahab,
Effects of Sugarcane's Bagasse Ash Additive on Portland Cement Properties, International Journal of Sustainable Development Research.
Vol. 3, No. 6,
2017, pp. 85-89.
Abebe Dinku, Construction material laboratory manual, Thesis M.Sc, Addis Ababa university, 2002.
Ahmed. S. F and Shaikh. Z, Portland pozzolana cement from sugar cane bagasse ash. International Technology Publication, London, 1992, pgs 172-179.
Asare Samuel, Comparing the compressive strength of concrete utilizing natural pozzolana as a partial replacement of Portland cement, Thesis HND, School of engineering in Ghana, 2010.
Asma Abd Elhmeed, Nasir Shafig, Compressive strength and microstructure of bagasse ash concrete, Research Journal of Applied sciences Engineering and technology, 2014, pgs 2569-2577.
B. Chatreera, P. Lertwattanaruk, Durability of conventional concrete containing black rise husk ash, Journal of environmental management, 2011, pgs 59-66.
Donald W. Lewis, P. E, Chief engineering, national slag association presented at university of Alabama, Slag cement seminar, 1981.
Dr. T. Roppelt, Rohrdor, Use of alternative raw material for cement clinker production- Cement international magazine, 2006- 36 pgs.
F. M. Lea, The chemistry of cement and concrete, Edwer Arnold (Publishers) Ltd, London, 1970.
F. M. Lea, The chemistry of cement and concrete, 3rd Ed, Chemical Publishing. Company Inc, 1971.
Hakan Avsar, Control optimization and monitoring of Portland cement quality at the ball mill, Thesis M. Sc, Izmir institute of technology school of graduate studies, 2006.
Kiran R. G, Analysis of strength characteristic of black cotton soil using bagasse ash and additives as stabilizer, International Journal of engineering research& technology, 2013, Issue 7.
Kwabena, Improvement of setting time and early strength development of pozzolana cement through chemical activation, Thesis Ms, University of science and technology, 2012.
Malhotra, V. M and Mehta, Pozzolanic and cementitous material, Amsterdam, Gordon& Breach, 1996.
Malhotra V. M, Properties of concrete with bagasse ash as fine aggregate, in proc 5th CANMET/ ACI, USA, 1995.
Rafat Siddique, Utilization of industrial by product in concrete, Journal of environmental research and development vol.2. 2008, pgs 4.
R. Srinivasan and K. Sathiya, Experimental study on bagasse ash in concrete, International Journal for service learning in engineering vol.5, 2010, pgs 60-66.
Subramani. T, Senthilkumar. T, Analysis of admixtures and their effects of silica fumes, International journal of modern engineering research, Volume 4- Issue 6 version 4, 2014, pgs 28-36.
Udayashankar D. Hakari, S. C. Puranik, Stabilization of black cotton soils using fly ash, Hubballi- Dharwad Municipal Corporation area, Karnatak, India, 2012, Vol.12 Issue 2.
http://www.concreteproducts.com/art/concrete news development 27/at 14/12/2016, 2: 03 PM.
http://www.fhwa.dof.gov/infrstructure/materialsgap/cement.htm/at 7/2/2017, 10: 00 AM.
http://www.geocities.com/capeconaveral/launchpad/2095/pozzolana.htm at 22/3/2017, 1: 23 PM.
http://www.scribd.com/doc/39643059/at 1/3/2017, 11: 44 AM.