Effect of Sandstone on Concrete Procedure With Plastic Synthetic Aggregate
(International Journal of Engineering Works)
Vol. 5, Issue 2, PP. 37-39, February 2018
plastic synthetic aggregate, coarse aggregate, sandstone, compressive strength, workability
In this research work, the effect of sandstone (SS) on concrete produced with plastic synthetic aggregate (PSA) was investigated. A mix proportion of 1:1.6:3.6 with water cement ratio of 0.50 were used. The percentage replacement of coarse aggregate (CA) with plastic synthetic aggregate and plastic synthetic aggregate/sandstone used were 0%, 5%, 10%, 20%, 30% and 40%. Concrete cubes of 150mmxl50mmxl50mm of CA/PSA and CA/PSA/SS were cast and cured at 3.7,28,60 and 90 days respectively. At the ends of each hydration period, the concrete cubes were crushed and their .compressive strength was determined. The result of compressive strength of 5-40% replacement of coarse aggregate with plastic synthetic aggregate ranges from 8.07-36.7lN/mm2 as against 24.55- 41.21N/mm2 for the control test. The result of the compressive strength of 5-40% replacement of coarse aggregate with plastic synthetic aggregate and sandstone ranges from 5.05-31.75N/mm2 as against 24.58- 41.21N/mm2 for the control test. The workability for 5-40% replacement of coarse aggregate with plastic synthetic aggregate ranges from 15-68mm as against 8mm for the control test (0% replacement).
- UZOH U.E: Department Of Civil Engineering, Gregory University, Uturu Abia State Nigeria, E-Mail Address: firstname.lastname@example.org
- MBADIKE E.M: Department Of Civil Engineering Michael Okpara University Of Agriculture, Umudike ,Umuahia, Abia State, Nigeria.
Uzoh U.E, Mbadike E.M, "Effect of Sandstone on Concrete Procedure With Plastic Synthetic Aggregate" International Journal of Engineering Works, Vol. 5, Issue 2, PP. 37-39, February 2018.
-  Elvis M. Mbadike and Ezeokpube G.C. (2014): Effect of Plastic Sunthetic aggregate in the production of Lightweight concrete. Journal of Advances in Biotechnology, USA, No 1, Vol 2, pp 83-88.
-  Cook, D.J. (2013): Coarse aggregate polystyrene granules mixes for use in masonry unit„building and environment, pp 150-182.
-  Sri Ravindrarajah, R. (2012): Bearing strength of concrete containing polystyrene aggregate, 8th International conference on durability of buildings materials and components, Vancouver, Canada, Vol 1, pp 505-514.
-  Basheer P.A.M, McCabe C.C and Long A.E (2014): “The influenceof admixture on the properties of fresh and hardened concrete”. Journal of scientific Industrial Research, Vol 8, pp 199-214.
-  Chatterji A.K. (2011): “Adsorption of lime and Pozzolanic activity; Journal of scientific Industrial Research Vol 20, pp 490-495.
-  Pimienta P, Remond S, Rodrigues N. and Boumazel J.P (2011). Assessing the properties of mortar containing municipal solid waste incineration fly ash. International congress creating with concrete, University of Dundee, pp 319-326.
-  Remond S, Punicnta P, and Bentz, D.P (2010): Effect of Incorporation of municipal solid waste fly ash in concrete. Journal of cement and Concrete Research, vol 10, pp 12-14.
-  British Standard Institution, BS 877 (1967): Foamed or expanded blast furnace slag lightweight aggregate in concrete “. London, pp8.
-  British standard institution BS 3797 (1964): “Lightweight aggregates for concrete”, London, pp8.
-  British standard institution, BS 12 (1978): “Specification for Ordinary and Rapid Portland cement, London, pp 38.
-  Neville A.M. (1981). “properties of concret “ 3rd Edition, Pitman, New York.
-  Neville A.M. (2000): “Properties of concrete” 4th edition Pearson Education, Asia Pte Ltd, England.
-  Khan M.J. Lynadaic C. and Waldron P. (2013): Interaction of plastic synthetic aggregate and silica fume influence on concrete strength, A vision for the next millennium, R Swarmy edition, Sheffield Academic Press, pp 300-309.