[Abu Seif, E., 2013. Performance of Cement Mortar Made with Fine Aggregates of Dune Sand, Kharga Oasis, Western Desert, Egypt: An Experimental Study. Jordan Journal of Civil Engineering, 7(3), pp. 213 – 270.]Search in Google Scholar
[Adesanya, D., Raheem, A., 2008. Development of corn cob ash blended cement. Journal of Construction and Building Materials, 23(1), pp. 347-352.10.1016/j.conbuildmat.2007.11.013]Search in Google Scholar
[Ahmad, S., Shaikh, Z., 1992. Portland-pozzolana cement from sugarcane bagasse ash. In Lime and Other Alternative Cements. Hill, N. Ed.; Intermediate Technology Publications: London, UK.10.3362/9781780442631.011]Search in Google Scholar
[An, R., 2016. Increasing Sustainability in Cement Production and Construction Sector. https://rctom.hbs.org/submission/increasingsustainability-in-cement production-and-construction-sector (view at 17 Nov. 2017).]Search in Google Scholar
[Anwar, M., Gaweesh, M., 2000. Waste Management Series, Waste Materials in Construction. Proceedings of the International Conference in the Science and Engineering Recycling for Environmental Protection; Harrogate. England. May 31 – June 2.]Search in Google Scholar
[Ayangade, J., Olusola, K., Ikpo, I., Ata, O., 2012. Effect of granite dust on the performance characteristic of Kernelruzzo floor finish. Journal of Building Environment, 39(10), pp. 1207-1212.10.1016/j.buildenv.2004.01.031]Search in Google Scholar
[Bagcal, O., Baccay. M., 2019. Effect of Corn Cob Ash as Supplementary Cementitious Material on the Mechanical Properties of Concrete. Int. J. Materials Engineering Innovation, 10(2), pp. 83-97.10.1504/IJMATEI.2019.099788]Search in Google Scholar
[Bapat, J., 2013. Mineral admixtures in cement and concrete. Boca Raton, Florida. CRC Press, Boca Raton, FL, USA.]Search in Google Scholar
[Chindaprasirt, P., Rukson, P. Sirivivatnanom, V., 2008. Resistance to chloride penetration of blended Portland cement mortar containing palm oil fuel ash, rice husk ash and fly ash.”Journal of Construction and Building Materials, 22(5), pp. 932-938.10.1016/j.conbuildmat.2006.12.001]Search in Google Scholar
[Dodson, V., 1981. The Effect of fly ash on the setting time of concrete – chemical or physical.” Proceedings, Symposium on Fly ash Incorporation in Hydrated Cement Systems, Materials Research Society, Boston, pp. 166-171.]Search in Google Scholar
[Ettu, L., Anya, U., Arimanwa, J., Anyaogu, L., Nwachukwu, K., 2013. Strength of Binary Blended Cement Composites Containing Corn Cob Ash. International Journal of Engineering Research and Development, 6(1), pp. 77-82.]Search in Google Scholar
[Hannesson, G., Kuder, K., Shogren, R., Lehman, D., 2012. The influence of high volume of fly ash and slag on the compressive strength of self-consolidating concrete. Construction and Building Materials, 30, pp.161-168.10.1016/j.conbuildmat.2011.11.046]Search in Google Scholar
[Hardin, B., McCool, D., 2015. BIM and Construction Management. Indianapolis, Indiana: Wiley, 2nd Ed., pp. 179-180]Search in Google Scholar
[Kamau, J., Ahmed, A., 2017. A review of the use of corn cob ash as supplementary cementitious materials.” European Journal of Engineering Research and Science, 2(8), pp. 1-610.24018/ejers.2017.2.8.415]Search in Google Scholar
[Kamau, J., Ahmed, A., Hirst, P., Kangwa, J., 2016. Suitability of Corncob Ash as a Supplementary Cementitious Material. International Journal of Materials Science and Engineering, 4(4), pp. 215-228.]Search in Google Scholar
[Karim, R., Hassan, M., Khan, M., Zain, M., Janil, M., Lai, F., 2014. On the Utilization of Pozzolanic Wastes as Alternative Resource Cement. Materials (Basel), 7(12), pp. 7809-7827.10.3390/ma7127809]Search in Google Scholar
[Mamlouk, M., Zaniewski, J., 2006. Materials for Civil and Construction Engineers, 2nd Edition.” New Jersey, USA. Pearson Prentice Hall.]Search in Google Scholar
[Malhotra, V., Mehta. K., 1996. Pozzolanic and Cementitious Materials. Amsterdam, The Netherland. Gordon and Breach Publisher, pp. 59-60.]Search in Google Scholar
[Neuwald, A., 2004. Supplementary Cementitious Materials, Part I: Pozzolanic SCM’s.” Precast Inc. Magazine, September/October, pp. 9-17.]Search in Google Scholar
[Olafusi, O., Olutoge. F., 2012. Strength properties of corn cob ash concrete. Journal of Emerging Trends in Engineering and Applied Sciences, 3, pp. 297-301.]Search in Google Scholar
[Olutoge, F., Bhashya, V., Bharatkumar, B., Sundar, K., 2010. Comparative Studies on Fly Ash and GGBS High Performance Concrete. Proceeding of National Conference on Trends and Recent Advances in Civil Engineering – TRACE 2010. Sept. 16-18.]Search in Google Scholar
[Price, A., Yeargin, R., Fini, F., Abu-Lebdeh, T., 2014. Investigating Effects of Introduction of Corn Cob Ash into Portland Cements Concrete Mechanical and Thermal Properties. American Journal of Engineering and Applied Sciences, 7(1), pp. 137-148.10.3844/ajeassp.2014.137.148]Search in Google Scholar
[Udoeyo, F., Abubakar. S., 2003. Corn Cob Ash as filler in concrete. Journal of Materials in Civil Engineering, 15(2), pp. 205-208.10.1061/(ASCE)0899-1561(2003)15:2(205)]Search in Google Scholar
[Vladimir, G., Graça, V., Paulo, B., 2011. Influence of aggregates grading and water/cement ratio in workability and hardened properties of mortars. Construction and Building Materials, 25(6), pp. 2980-2987.10.1016/j.conbuildmat.2010.11.011]Search in Google Scholar
[Zareei, 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, pp. 73-81.10.1016/j.cscm.2017.05.001]Search in Google Scholar