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Ganesan, K., Rajagopal K., Thangavel K. (2008). Rice husk ash blended cement: Assessment of optimal level of replacement for strength and permeability properties of concrete. Construction and Building Materials, 22(8), 1675–1683.GanesanK.RajagopalK.ThangavelK.2008Rice husk ash blended cement: Assessment of optimal level of replacement for strength and permeability properties of concrete2281675168310.1016/j.conbuildmat.2007.06.011Search in Google Scholar
Givi, A.N., Rashid, S.A., Aziz, F.N.A, Salleh, M.A.M. (2010). Assessment of the effects of rice husk ash particle size on strength, water permeability and workability of binary blended concrete. Construction and Building Materials, 24(11), 2145–2150.GiviA.N.RashidS.A.AzizF.N.ASallehM.A.M.2010Assessment of the effects of rice husk ash particle size on strength, water permeability and workability of binary blended concrete24112145215010.1016/j.conbuildmat.2010.04.045Search in Google Scholar
Bui, D.D., Hu, J., Stroeven, P. (2005). Particle size effect on the strength of rice husk ash blended gap-graded Portland cement concrete. Cement and Concrete composites. 27(3), 357–366.BuiD.D.HuJ.StroevenP.2005Particle size effect on the strength of rice husk ash blended gap-graded Portland cement concrete27335736610.1016/j.cemconcomp.2004.05.002Search in Google Scholar
Sensale, G.R.D. (2006). Strength development of concrete with rice-husk ash. Cement and Concrete composites. 28(2), 158–160.SensaleG.R.D.2006Strength development of concrete with rice-husk ash28215816010.1016/j.cemconcomp.2005.09.005Search in Google Scholar
Krishna R.N. (2008). Rice Husk Ash, an Ideal Admixture for Concrete in Aggressive Environment, Proceedings of Recycling Construction Waste for Sustainable Development, Organized by CREAM, UITM, ACCI and CSM, Kuala Lumpur.KrishnaR.N.2008Rice Husk Ash, an Ideal Admixture for Concrete in Aggressive EnvironmentKuala LumpurSearch in Google Scholar
Swamy, R.N. (1983). New concrete material, Concrete technology and design, (1), 146–150.SwamyR.N.1983New concrete material1146150Search in Google Scholar
Gutt, W., Nixon, P.J. (1979). Use of waste materials in the construction industry. Materials and Structures, 12(4), 255–306.GuttW.NixonP.J.1979Use of waste materials in the construction industry12425530610.1007/BF02473543Search in Google Scholar
Mehta, P.K. (1992). Rice husk ash–a unique supplementary cementing material, V.M. Malhotra (Ed.), Proceedings of the International Symposium on Advances in Concrete Technology. CANMET/ACI, Athens, Greece. 407–430.MehtaP.K.1992Rice husk ash–a unique supplementary cementing materialMalhotraV.M.(Ed.)CANMET/ACIAthens, Greece407430Search in Google Scholar
Ephraim M.E., Akeke G.A, Ukpata J.O, (2012). Compressive strength of concrete with rice husk ash as partial replacement of ordinary Portland cement. Scholarly Journal of Engineering Research, 1(2), 32–36.EphraimM.E.AkekeG.AUkpataJ.O2012Compressive strength of concrete with rice husk ash as partial replacement of ordinary Portland cement123236Search in Google Scholar
Deshmukh S.D. (2011). Experimental Study on Strength of Concrete by Using Artificial Fibers with Rice Husk Ash. International Journal of Engineering Research and Applications, 1(3), 571–581.DeshmukhS.D.2011Experimental Study on Strength of Concrete by Using Artificial Fibers with Rice Husk Ash13571581Search in Google Scholar
Kumar S. (2012). Experimental study on the properties of concrete made with alternate construction materials.International Journal of Modern Engineering Research, 2(5), 3006–3012.KumarS.2012Experimental study on the properties of concrete made with alternate construction materials2530063012Search in Google Scholar
Givi A.N., Rashid S.A. (2010). Contribution of RHA to the properties of mortar and concrete. A Review-Journal of American Science, 6(3), 157–165.GiviA.N.RashidS.A.2010Contribution of RHA to the properties of mortar and concrete63157165Search in Google Scholar
Uduweriya R., Subash C. (2010). Investigation of compressive strength of concrete containing RHA-Proceedings of International Conference on Sustainable Built Environment, Kandy, Indonesia.UduweriyaR.SubashC.2010Investigation of compressive strength of concrete containing RHAKandy, IndonesiaSearch in Google Scholar
Domke P.V., Deshmukh S.D., Kene S.D., Deotale R.S. (2011). Study of Various Characteristic of Concrete with Rice Husk Ash As A Partial Replacement Of Cement With Natural Fibers (Coir). International Journal of Engineering Research and Applications, 1(3), 554–562.DomkeP.V.DeshmukhS.D.KeneS.D.DeotaleR.S.2011Study of Various Characteristic of Concrete with Rice Husk Ash As A Partial Replacement Of Cement With Natural Fibers (Coir)13554562Search in Google Scholar
Kartini, K., Mahmud, H.B., Hamidah, M.S. (2006). Strength properties of grade 30 rice husk ash concrete. 31st Conference on OUR WORLD IN CONCRETE & STRUCTURES: Singapore.KartiniK.MahmudH.B.HamidahM.S.2006Strength properties of grade 30 rice husk ash concreteSingaporeSearch in Google Scholar
Chik, F.A.W., Bakar, B.H.A., Johari, M.A.M., Jaya, R.P. (2011). Properties of concrete block containing rice husk ash subjected to girha, IJRRAS.ChikF.A.W.BakarB.H.A.JohariM.A.M.JayaR.P.2011IJRRASSearch in Google Scholar
Zareei, S.A., Ameri, F., Dorostkar, F., Ahmadi, M. (2017). Rice husk ash as a partial replacement of cement in high strength concrete containing micro silica: Evaluating durability and mechanical properties. Case studies in construction materials, 7, 73–81.ZareeiS.A.AmeriF.DorostkarF.AhmadiM.2017Rice husk ash as a partial replacement of cement in high strength concrete containing micro silica: Evaluating durability and mechanical properties7738110.1016/j.cscm.2017.05.001Search in Google Scholar
Alex, J., Dhanalakshmi, J., Ambedkar, B. (2016). Rice husk ash as a partial replacement of cement in high strength concrete containing micro silica: Evaluating durability and mechanical properties, Construction and building materials, 127, 353–362.AlexJ.DhanalakshmiJ.AmbedkarB.2016Rice husk ash as a partial replacement of cement in high strength concrete containing micro silica: Evaluating durability and mechanical properties12735336210.1016/j.conbuildmat.2016.09.150Search in Google Scholar
Bhushan, E.R., Gochhe, S., Singh, E.H., Bastola, B.P. (2017). Partial Replacement of cement by rice husk ash. International Research Journal of Engineering and Technology, 4(10) 251–256.BhushanE.R.GochheS.SinghE.H.BastolaB.P.2017Partial Replacement of cement by rice husk ash410251256Search in Google Scholar
Poloju, K.K., Rollakanti, C.R. (2017). Strength Studies on Different Grades of Concrete Considering Fire Exposure. American Journal of Civil Engineering, 6(1), 16–23.PolojuK.K.RollakantiC.R.2017Strength Studies on Different Grades of Concrete Considering Fire Exposure61162310.11648/j.ajce.20180601.14Search in Google Scholar