Performance and Evaluation for Durability Enhancement of Self Compacting Concrete Using Ground Granulated Blast Furnace Slag

Persson, B. (2001). A comparison between mechanical properties of self-compacting concrete and the corresponding properties of normal concrete. Cement and concrete Research, 31(2), 193-198. Search in Google Scholar

Su, N., Hsu, K. C., & Chai, H. W. (2001). A simple mix design method for self-compacting concrete. Cement and concrete research, 31(12), 1799-1807. Search in Google Scholar

Safiuddin, M. D., Salam, M. A., & Jumaat, M. Z. (2011). Effects of recycled concrete aggregate on the fresh properties of self-consolidating concrete. Archives of Civil and Mechanical Engineering, 11(4), 1023-1041. Search in Google Scholar

Felekoğlu, B. (2008). A comparative study on the performance of sands rich and poor in fines in self-compacting concrete. Construction and Building Materials, 22(4), 646-654. Search in Google Scholar

Bui, V. K., Montgomery, D., Hinczak, I., & Turner, K. (2002). Rapid testing method for segregation resistance of self-compacting concrete. Cement and Concrete research, 32(9), 1489-1496. Search in Google Scholar

Atiş, C. D. (2005). Strength properties of high-volume fly ash roller compacted and workable concrete, and influence of curing condition. Cement and Concrete research, 35(6), 1112-1121. Search in Google Scholar

Ulagadde, A. A., & Kumbhar, P. D. (2013). Development of M60 grade Self Compacting Concrete using Mineral Admixture in Quaternary Blends. World Journal of Engineering Science. Search in Google Scholar

R. Rai, A., & Joshi, Y. P. (2014). Applications and properties of fibre reinforced concrete. Journal of Engineering Research and Applications, 4(5), 123-131. Search in Google Scholar

Naik, M. P. P., & Vyawahare, M. (2013). Comparative study of effect of silica fume and quarry dust on strength of self-compacting concrete. International Journal of Engineering Research and Applications, 3(3), 1497-1500. Search in Google Scholar

Guleria, D., & Kamboj, J. (2016). Study of Mechanical Properties of High Strength Concrete by Using Steel Fiber–A Review. International Journal of Civil Engineering and Technology, 7(5), 63-71. Search in Google Scholar

Bairagi, N. K., & Modhera, C. D. (2004). An experimental study of shear strength test method for SFRC. In Proceedings of International Conference on Advances in Concrete and Construction (Vol. 1, No. 1). Search in Google Scholar

Persson, B. (2003). Sulphate resistance of self-compacting concrete. Cement and concrete research, 33(12), 1933-1938. Search in Google Scholar

Mahalingam, B., & Nagamani, K. (2011). Effect of processed fly ash on fresh and hardened properties of self-compacting concrete. Int J Earth Sci Eng, 4(5), 930-940. Search in Google Scholar

Funke, H. L., Gelbrich, S., & Kroll, L. (2015). Development of effective textile-reinforced concrete noise barrier. Journal of Materials Science Research, 4(3), 33. Search in Google Scholar

Funke, H., Gelbrich, S., & Ehrlich, A. (2013). Development of a new hybrid material of textile reinforced concrete and glass fibre reinforced plastic. Procedia Materials Science, 2, 103-110. Search in Google Scholar

Saxena, J., & Saxena, A. (2015). Enhancement the strength of conventional concrete by using nylon fibre. Int. J. Eng. Sci, 5(2), 56-59. Search in Google Scholar

Thamizharasan, K., Srinivasan, S. R., Varutharaju, P., & Sathishkumar, V. (2016). Study on characteristics of textile fibre reinforced concrete. Issue of International Journal of Applied Sciences, 8(1), 41-57. Search in Google Scholar

Sai, E. R., Juma, A., Prakash, D. V. A. K., Haider, S., & Rao, S. K. (2012). An experimental study on synergic effect of sugar cane bagasse ash with Rice husk ash on self-compaction concrete. Pan, 90(9), 55. Search in Google Scholar

Subramania, B. V., Ramasamy, J. V., Ragupathy, R., & Seenivasan, C. (2009). Workability and strength study of high volume flyash self-compacting concrete. Indian concrete journal, 83(3), 17-22. Search in Google Scholar

Okamura, H. (1997). Self-compacting high-performance concrete. Concrete international, 19(7), 50-54. (22) Okamura, H., and Ouchi, M. (2003). Self-compacting concrete. Journal of advanced concrete technology, 1(1), 5-15. Search in Google Scholar

Mahesh, Y. V. S. S. U., & Santhanam, M. (2004). Simple test methods to characterise the rheology of self-compacting concrete. Indian concrete journal, 78(6), 39-43. Search in Google Scholar

Bapat, S. G., Kulkarni, S. B., & Bandekar, K. S. (2005). INDIAN EXPERIENCE OF SELF COMPACTING CONCRETE. In Role of Concrete in Nuclear Facilities (pp. 33-42). Thomas Telford Publishing. Search in Google Scholar

Bassuoni, M. T., & Nehdi, M. L. (2007). Resistance of self-consolidating concrete to sulfuric acid attack with consecutive pH reduction. Cement and Concrete Research, 37(7), 1070-1084. Search in Google Scholar

Dhonde, H. B., Mo, Y. L., Hsu, T. T., & Vogel, J. (2007). Fresh and hardened properties of self-consolidating fiber-reinforced concrete. ACI materials journal, 104(5), 491. Search in Google Scholar

Fares, H., Pierce, K., Toutanji, H., Noumowe, A., & Gilbert, J. Lightweight Self-Consolidating Concrete Subjected To Fire. Search in Google Scholar

Henderson, N. (2000). Self-compacting concrete at Millennium Point. Concrete, 34(4), 26-7. Search in Google Scholar

Lessard, M., Salazar, B., & Talbot, C. (2003). Self-consolidating concrete solves challenging placement problems. Concrete international, 25(12), 80-81. Search in Google Scholar

Mittal, A., Kaisare, M. B., & Shetti, R. G. (2004). Use of SCC in a pump house at TAPP 3&4, Tarapur. Indian concrete journal, 78(6), 30-34. Search in Google Scholar

Khayat, K. H. (1999). Workability, testing, and performance of self-consolidating concrete. Materials Journal, 96(3), 346-353. Search in Google Scholar

Kumar, P., Haq, M. A., & Kaushik, S. K. (2004). Early age strength of SCC with large volumes of fly ash. Indian concrete journal, 78(6), 25-29. Search in Google Scholar

Lachemi, M., Hossain, K. M. A., Lambros, V., Nkinamubanzi, P. C., & Bouzoubaâ, N. (2004). Self-consolidating concrete incorporating new viscosity modifying admixtures. Cement and Concrete Research, 34(6), 917-926. Search in Google Scholar

Assaad, J., & Khayat, K. H. (2005). Formwork pressure of self-consolidating concrete made with various binder types and contents. ACI Materials Journal, 102(4), 215. Search in Google Scholar

Sood, H., Khitoliya, R. K., & Pathak, S. S. (2009). Incorporating European standards for testing self compacting concrete in Indian conditions. International Journal of Recent Trends in Engineering, 1(6), 41. Search in Google Scholar

Assie, S., Escadeillas, G., Marchese, G., & Waller, V. (2006). Durability properties of low-resistance self-compacting concrete. Magazine of Concrete Research, 58(1), 1-7. Search in Google Scholar

Hwang, S. D., Khayat, K. H., & Bonneau, O. (2006). Performance-based specifications of self-consolidating concrete used in structural applications. ACI materials journal, 103(2), 121. Search in Google Scholar

Naveen Kumar, C., John, K. V., VENGALA, J., & Ranganath, R. V. (2006). Self-compacting concrete with fly ash and metakaolin. Indian concrete journal, 80(4), 33-39. Search in Google Scholar

Şahmaran, M., Christianto, H. A., & Yaman, İ. Ö. (2006). The effect of chemical admixtures and mineral additives on the properties of self-compacting mortars. Cement and concrete composites, 28(5), 432-440. Search in Google Scholar

Şahmaran, M., Christianto, H. A., & Yaman, İ. Ö. (2006). The effect of chemical admixtures and mineral additives on the properties of self-compacting mortars. Cement and concrete composites, 28(5), 432-440. Search in Google Scholar

Ng, I. Y. T., Wong, H. H. C., & Kwan, A. K. H. (2006). Passing ability and segregation stability of self-consolidating concrete with different aggregate proportions. Magazine of Concrete Research, 58(7), 447-457. Search in Google Scholar

Prakash, K. B., & Kulkarni, D. K. (2006). Effects of addition of more than two chemical admixtures on concrete properties. Indian concrete journal, 80(5), 17-21. Search in Google Scholar

Ganesan, N., Indira, P. V., & SANTHOSH KUMAR, P. T. (2006). Durability aspects of steel fibre-reinforced SCC. Indian concrete journal, 80(5), 31-37. Search in Google Scholar

Malathy, R., & Govindaswamy, T. (2006). Development of mix design chart for various grades of self compacting concrete. Indian concrete institute journal, 19-28. Search in Google Scholar

Basu, P. C., & Chowdhury, S. (2007). Impact of fine aggregate particle size on mortar rheology for SCC. Indian concrete journal, 81(1), 7-14. Search in Google Scholar

Leemann, A., & Winnefeld, F. (2007). The effect of viscosity modifying agents on mortar and concrete. Cement and Concrete Composites, 29(5), 341-349. Search in Google Scholar

Ahmadi, M. A., Alidoust, O., Sadrinejad, I., & Nayeri, M. (2007). Development of mechanical properties of self compacting concrete contain rice husk ash. International Journal of Computer, Information, and Systems Science, and Engineering, 1(4), 259-262. Search in Google Scholar

Rozière, E., Granger, S., Turcry, P., & Loukili, A. (2007). Influence of paste volume on shrinkage cracking and fracture properties of self-compacting concrete. Cement and concrete composites, 29(8), 626-636. Search in Google Scholar

Hassan, A. A. A., Hossain, K. M. A., & Lachemi, M. (2008). Behavior of full-scale self-consolidating concrete beams in shear. Cement and Concrete Composites, 30(7), 588-596. Search in Google Scholar

Memon, S. A., Shaikh, M. A., & Akbar, H. (2008, August). Production of low-cost self-compacting concrete using rice husk ash. In First International Conference on Construction in Developing Countries, Karachi, Pakistan. Search in Google Scholar

Patagundi, B. R., & Prakash, K. B. (2008). Effect of chloride and sulphate attack on the properties of concrete containing waste glass powder as pozzolana. Indian concrete journal, 82(12), 35-41. Search in Google Scholar

Sengupta, A., & Santhanam, M. (2009). Influence of aggregate characteristics on uniformity of SCC. Indian concrete journal, 83(6), 50-60. Search in Google Scholar