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Combined Effect of Mineral Admixtures in High-Performance Concrete


Affiliations
1 Assistant Professor, Department of Civil Engineering, M.Kumarasamy College of Engineering, Karur,Tamil Nadu, India
2 Assistant Professor, Department of Civil Engineering, M.Kumarasamy College of Engineering, Karur, Tamil Nadu, India
     

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High Performance Concrete (HPC) is a propelled sort of concrete that can increase the strength and versatility of concrete structures. For many years, High performance concrete (HPC) is the innovative type of concrete. It has been developed and used for many purpose in construction results in increased characteristics compared to conventional concrete. Fly ash, Silica fume, Quarry Dust has been popularly used in as mineral admixtures and along with that water also used as natural admixture in HPC to improve the mechanical properties. The utilization of nearby materials is a principal venture to spare materials and vitality and lessen the cost of concrete. The cement has been partially replaced with silica fume, combination of coconut shell and eggshell ash (with equal proportions). In order to found out the mechanical properties of High-Performance concrete, concrete specimens were casted and tested for 7, 28 days up to failure. In this investigation the mechanical properties of HPC are compared to Controlled Specimens.

Keywords

Mechanical Properties, Silica Fume, Combination of Coconut shell and Egg shell ash, Compressive strength, Tensile strength, Flexural Strength, Mineral Admixture.
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  • Balaji G, Vetturayasudharsanan R (2019) “Experimental investigation on flexural behaviour of RC hollow beams”, Materials today: proceedings 2019, https://doi.org/10.1016/j.matpr.2019.05.461.
  • Vetturayasudharsanan R, Balaji G (2019) “Feasibility study on triangular perfobond rib shear connectors In composite slab”, Materials today: proceedings 2019.
  • Ali Alsalman, Canh N. Dang, Gary S. Prinz, and W. Micah Hale (2017) “Evaluation of modulus of elasticity of ultra-high performance concrete”, Construction and Building Materials, Vol. No. 153, pp 918–928.
  • Andrew Fahim, Edward G. Moffatt and Michael D.A. Thomas “Performance of high-volume fly ash concrete in marine environment”, Cement and Concrete Research, Vol. No. 102 pp, 127–135.
  • Birgit Funk, Reinhard Trettin, and Henning Zoz (2017) “From slag to high performance concrete – Manufacturing FuturBeton”, Materials Today: Proceedings 4, pp S81–S86.
  • Chen.J.J, Ng .P.L, Li .L.G and Kwanc .A.K.H (2017) “Production of high-performance concrete by addition of fly ash microsphere and condensed silica fume”, Procedia Engineering Vol. No. 172, pp 165 – 171.
  • Hor Yin, Wee Teo, and Kazutaka Shirai (2017) “Experimental investigation on the behaviour of reinforced concrete slabs strengthened with ultra-high performance concrete”, Construction and Building Materials Vol. No. 155, pp 463–474.
  • IS: 383-1970, “Specifications for Coarse and Fine aggregate from Natural Sources for Concrete”, Bureau of Indian Standards, New Delhi, India.
  • IS: 456-2000, “Indian Standard Code for Practice for Plain and Reinforced Concrete”, Bureau of Indian Standards, New Delhi, India.
  • IS: 516-1959, “Indian Standard Code for Practice- Methods of Test for Strength of Concrete”, Bureau of Indian Standards, New Delhi, India.
  • IS: 10262-2000, “Recommended Guidelines for Concrete Mix Design”, Bureau of Indian Standards, New Delhi, India.
  • IS: 12269-1987, “Specifications for 53-Grade Portland Cement”, Bureau of Indian Standards, New Delhi, India.
  • Jacek Go1aszewski and Tomasz Ponikiewski (2014) “The influence of high-calcium fly ash on the properties of fresh and hardened self-compacting concrete and high performance selfcompacting Concrete”, Journal of Cleaner Production Vol. No. 72, pp 212-221.
  • Maha M.S. Ridha, Nagham T.H. Al-Shafi, and Milad M. Hasan (2017) “Ultra-high performance steel fibers concrete corbels: Experimental investigation”, Case Studies in Construction Materials 7, pp 180–190.
  • Miao Ren, Tiefeng Chen and Xiaojian Gao (2018) “Effects of autoclave curing and fly ash on mechanical properties of ultrahigh performance concrete”, Construction and Building Materials Vol. No. 158, pp 864–872.
  • Wojciech Kubissa, Tamas Simon, Roman Jaskulski, Pavel Reiterman, Marcin Supera (2017) “Ecological high performance concrete”, Procedia Engineering Vol. No. 172, pp 595 – 603.
  • Balaji, G., & Dineshkumar, R. (2020). Experimental Investigation on High Performance Concrete with Silica Fume and Combination of Coconut Shell and Egg Shell Ash as Mineral Admixture. ADALYA JOURNAL, 9(1), 403-407.
  • Balaji, G. (2016). Arivu Thiravida Selvan V and Maniarasan SK (2016),‘Study on Structural Behaviour of RC Hollow Beams’. International Journal of Innovative Research in Engineering Science and Technology, Special Issue, 38-43.
  • R. Vetturayasudharsanan, G. Balaji, P. Balamurugan, and R. Dineshkumar, “Analytical study of triangular perfobond shear connectors,” Innovative Infrastructure Solutions, vol. 6, no. 2, p. 115, 2021.
  • Balaji G and Vetturayasudharsanan R (2018), ‘Experimental Study on Fly Ash Based slurry Infiltrated Fiber Concrete Beam Incorporate with Lathe Waste’, International Journal of Emerging Trends in Science and Technology, Volume 4, Issue 2, pp 5-8.

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  • Combined Effect of Mineral Admixtures in High-Performance Concrete

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Authors

G. Balaji
Assistant Professor, Department of Civil Engineering, M.Kumarasamy College of Engineering, Karur,Tamil Nadu, India
R. Vetturayasudharsanan
Assistant Professor, Department of Civil Engineering, M.Kumarasamy College of Engineering, Karur,Tamil Nadu, India
R. Dineshkumar
Assistant Professor, Department of Civil Engineering, M.Kumarasamy College of Engineering, Karur, Tamil Nadu, India

Abstract


High Performance Concrete (HPC) is a propelled sort of concrete that can increase the strength and versatility of concrete structures. For many years, High performance concrete (HPC) is the innovative type of concrete. It has been developed and used for many purpose in construction results in increased characteristics compared to conventional concrete. Fly ash, Silica fume, Quarry Dust has been popularly used in as mineral admixtures and along with that water also used as natural admixture in HPC to improve the mechanical properties. The utilization of nearby materials is a principal venture to spare materials and vitality and lessen the cost of concrete. The cement has been partially replaced with silica fume, combination of coconut shell and eggshell ash (with equal proportions). In order to found out the mechanical properties of High-Performance concrete, concrete specimens were casted and tested for 7, 28 days up to failure. In this investigation the mechanical properties of HPC are compared to Controlled Specimens.

Keywords


Mechanical Properties, Silica Fume, Combination of Coconut shell and Egg shell ash, Compressive strength, Tensile strength, Flexural Strength, Mineral Admixture.

References