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Effect of Addition and Substitution of Micro Calcite on Strength and Durability Characteristics of HPC

T. Sekar*

*Professor, Department of Civil Engineering, University College of Engineering, Ramanathapuram, Tamil Nadu, India.

Periodicity:December - February'2015
DOI : https://doi.org/10.26634/jste.3.4.3241

Abstract

An experimental investigation has been carried out to study the effect of addition and substitution of micro calcite on strength and durability characteristics of High Performance Concrete (HPC). Various tests were conducted on HPC specimens including compression on cubes, split tension on cylinders and flexure on prisms to evaluate mechanical strength, water permeability, sulphate resistance and chloride resistance on cubes to evaluate durability characteristics. A total of 396 concrete specimens of standard sizes were cast with and without micro calcite and tested at different ages (i.e. 7, 14 and 28 days) to evaluate strength and durability characteristics of concrete following relevant Indian standard code procedure. Two different cases of incorporation of micro calcite in concrete viz. addition case and substitution case were considered, and in each case, five different dosage levels of micro calcite inclusion in concrete viz. 5%, 10%, 15%, 20% and 25% by weight of cement were considered. Test results indicate that incorporation of micro calcite in concrete either by addition or by substitution up to a certain level improves strength, durability and strength-to-weight ratio of concrete markedly, and any further inclusion beyond that level does not enhance the above properties of concrete. In addition, the improvement in mechanical strength at early age is higher than that at later ages for both cases of addition and substitution. Furthermore, optimum dosage level of micro calcite to achieve maximum gain in strength, durability and other engineering properties of concrete are 10% and 15% for addition and substitution cases, respectively.

Keywords

Keywords: High Performance Concrete, Micro Calcite, Addition and Substitution of Micro Calcite, Evaluation of Strength and Durability Characteristics.

How to Cite this Article?

Sekar, T. (2015). Effect of Addition and Substitution of Micro Calcite on Strength and Durability Characteristics of HPC. i-manager’s Journal on Structural Engineering, 3(4), 13-19. https://doi.org/10.26634/jste.3.4.3241

References

[1]. ACI Committee 211 (ACI 211.4R-93). (1993). “Guide for selecting proportions for high-strength concrete with Portland cement and fly ash”, American Concrete Institute, Detroit, Michigan, USA.

[2]. Ali, A.H., Kandeel, A. M., and Ouda, A. S. (2013). “Hydration characteristics of limestone filled cement pastes”, Chemistry and Materials Research, Vol.5, pp.68 - 73.

[3]. Dinakar, P., Pradosh K. Sahoo, and Sriram, G. (2013). “Effect of metakaolin content on the properties of high strength concrete”, International Journal of Concrete Structures and Materials, Vol.7, No. 3, pp.215 - 223.

[4]. Dordi, C. M., VyasaRao, A. N., and Manu Santhanam. (2013). “Microfine ground granulated blast furnace slag for high performance concrete”, Third International Conference on Sustainable Construction Materials and Technologies organized by Japan Concrete Institute, Japan.

[5]. Ganesan, N., and Sekar, T. (2003).“Mechanical properties of super-plasticized micro-silica modified high strength concrete”, Indian Concrete Institute Journal, Vol. 4, No. 3, pp.37 - 40.

[6]. IS: 12269. (1989). (Reaffirmed 1999). “Specification for 53 grade ordinary Portland cement”, Bureau of Indian Standards, New Delhi.

[7]. IS: 3085. (1965). (Reaffirmed 2002). “Method of test for permeability of cement mortar and concrete”, Bureau of Indian Standards, New Delhi.

[8]. IS: 383. (1970). (Reaffirmed 1997). “Specification for coarse and fine aggregates from natural sources for concrete”, Bureau of Indian Standards, New Delhi.

[9]. IS: 456. (2000). “Plain and reinforced concrete - Code of practice”, Bureau of Indian Standards, New Delhi.

[10]. IS: 516. (1959). (Reaffirmed 2004). “Methods of tests for strength of concrete”, Bureau of Indian Standards, New Delhi.

[11]. IS: 5816. (1999). (Reaffirmed 2004). “Splitting tensile strength of concrete - Method of test”, Bureau of Indian Standards, New Delhi.

[12]. Jean Pera, Sophie Husson, and Bernard Guilhot. (1999). “Influence of finely ground limestone on cement hydration”, Cement and Concrete Composites, Vol. 21, No. 2, pp.99 - 105.

[13]. Muthupriya, P., Subramanian, K., and Vishnuram, B. G. (2010). “Strength and durability characteristics of high performance concrete”, International Journal of Earth Sciences and Engineering, Vol.3, No.3, pp.416 - 433.

[14].Patil Shreekedar,A., and Kumbhar, P. D. (2013). “Study on effect of mineral admixtures in mix proportioning of HPC”, International Journal of Research in Advent Technology, Vol.1, No. 5, pp.499 - 504.

[15]. Patil, B. B., and Kumbhar, P. D. (2012). “Strength and durability properties of high performance concrete incorporating high reactivity metakaolin”, International Journal of modern Engineering Research, Vol.2, No.3, pp.1099 - 1104.

[16]. Shanmugapriya, T., and Uma, R. N. (2013). “Experimental investigation on silica fume as partial replacement of cement in high performance concrete”, The International Journal of Engineering and Science, Vol.2, No.5, pp.40 - 45.

[17]. Sounthararajan, V. M., and Sivakumar, A. (2013). “Effect of the lime content in marble powder for producing high strength concrete”, ARPN Journal of Engineering and Applied Sciences, Vol.8, No.4, pp.260 - 264.

[18]. Sudarsana Rao. Hunchate, Sashidhar. Chandupatte, Vaishali. G. Ghorpode, and Venkata Reddy, T. C. (2014). “Mix design of high performance concrete using silica fume and super plasticizer”, International Journal of Innovative Research in Science, Engineering and Technology, Vol.3, No.3, pp.10735 - 10742.

[19]. Vinayagam, P.(2012). “Experimental investigation on high performance concrete using silica fume and super plasticizer”, International Journal of Computer and Communication Engineering, Vol.1, No.2, pp.168 - 171.

[20]. WendimuGudissa, and AbebeDinku. (2010). “The use of lime stone powder as an alternative cement replacement material: An experimental study”, Journal of EEA, Vol.27, pp.33 - 43.

Effect of Addition and Substitution of Micro Calcite on Strength and Durability Characteristics of HPC

Abstract

Keywords

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