CURING: AN EASIEST AND CHEAPEST METHOD TO INCREASE THE DURABILITY AND STRENGTH OF CONCRETE
Abstract
Curing is a process which follows immediately after placing and finishing of concreting. It maintains satisfactory moisture content and temperature in concrete for period of time so that the desired properties may develop. Curing has a strong influence on the properties of hardened concrete. With proper curing concrete becomes stronger, more impermeable, and more resistant to stress, abrasion, and freezing and thawing. Using of fiber in concrete may improve these properties but it increases the cost of concrete. This paper reports the results of a study conducted to assess the effect of ages of curing on durability and strength of fiber and non fiber reinforced concrete. Also a comparative study of cost per unit strength and cost per unit service life period is done in between fiber reinforced concrete and non fiber reinforced concrete with proper curing. The concrete cubes were prepared varying three water cement ratios and cured for different curing days. Bulk electrical resistivity test, ultrasonic pulse velocity test, compressive strength test, flexural strength test and carbonation depth test were performed for the cured cubes. From test result it is found that proper curing of traditional concrete is more economical than fiber reinforced concrete to achieve same strength and durability.
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A.S. Al-Gahtani, “Effect of Curing Methods on the Properties of Plain and Blended Cement Concretes”, Vol-24, pp-308–314, (2010),
Bai J, Wild S and Sabir B.B, “Sorptivity and Strength of Air-Cured and Water-Cured PC–PFA–MK Concrete and the Influence of Binder Composition on Carbonation Depth”, Cement Concrete Research, Vol-32, pp-1813-1821, (2002).
Bhargava Ankit and Banthia Nemikumar, “Permeability of Concrete with Fiber Reinforcement and Service Life Predictions”, Materials and Structures, Vol-41(2), pp-363-372, (2007).
BIS: 456, “Plain and Reinforced Concrete – Code of Practice”, Bureau of Indian Standards, Manak Bhawan, 9 Bahadurshah Zafar Marg, New Delhi, 110002, (2000).
BIS: 10086, “Specification for Moulds for Use in Test of Cement and Concrete”, Bureau of Indian Standards, Manak Bhawan, 9 Bahadurshah Zafar Marg, New Delhi, 110002, (1982).
Bonavetti V, Donza H, Rahhal V, Irassar E., “Influence of Initial Curing on the Properties of Concrete Containing Limestone Blended Cement”, Cement and Concrete Research, Vol- 30, pp-703-708, (2000).
Carmen Andrade, “Types of Models of Service Life of Reinforcement: The Case of the Resistivity”, Concrete Research Letters (ISSR Journals), Vol-1, No-2, pp-73-80, (2010).
Duran Atis Cengiz, “Strength Properties of High-Volume Fly Ash Roller Compacted and Workable Concrete, and Influence of Curing Condition”, Cement Concrete Research, Vol-35, pp-1112–21, (2005).
Guo Li, Nobuaki Otsuki and Yuan Ying-shu, “Effects of the Initial Water Curing Time on the Corrosion Behavior of Steel Bar Corrosion in Fly Ash Concrete”, Procedia Earth and Planetary Science, Vol-1, pp-742–749, (2009).
Guneyisi Erhan, Ozturan Turan and Gesoglu Mehmet, “Effect of Initial Curing on Chloride Ingress and Corrosion Resistance Characteristics of Concretes Made with Plain and Blended Cements”, Building and Environment,vol-42, pp- 2676–2685, (2007).
Guneyisi a Erhan, Gesog˘lu Mehmet, Ozturan Turan, and Erdogan zbay O., “Estimation of Chloride Permeability of Concretes by Empirical Modeling: Considering Effects of Cement Type, Curing Condition and Age”, Construction Building Materials, Vol-23, pp-469-481, (2009).
Haque M.N, AlKhaiata H and Kayali O., “Long-Term Strength and Durability Parameters of Lightweight Concrete in Hot Regime: Importance of Initial Curing”, Building and Environment, Vol-42, pp-3086–3092, (2007).
I.G. Richardson, “The Nature of C-S-H in Hardened Cements”, Cement and Concrete Research, Vol-29, pp-1131–1147, (1999).
Mc Cartera W.J and Ben-Salehb A.M, “Influence of Practical Curing Methods on Evaporation of Water From Freshly Placed Concrete in Hot Climates”, Building Environment, Vol-36, pp-919-924, (2001).
Mannan M.A, Basri H.B, Zain M.F.M, Islam M.N, “Effect of Curing Conditions on the Properties of OPS-Concrete”, Building Environment, Vol-37(11), pp-1167-1171, (2002).
Nilsen A.U. and Aitcin P.C., “Static Modulus of Elasticity of High strength Concrete from Pulse Velocity Test”, Cement, Concrete and Aggregates, CCAGDP, Vol-14(1), pp-000-000, (1992).
Ortiz J, Aguado A, Agullo L, Garcı T., “Influence of Environmental Temperatures on the Concrete Compressive Strength: Simulation of Hot and Cold Weather Conditions”, Cement Concrete Research, Vol-35, pp-1970-1979, (2005).
Rakesh Kumar and Bhattacharjee B., “Porosity, Pore Size Distribution and in Situ Strength of Concrete”, Cement and Concrete Research, Vol-33 pp-155 -164, (2003).
Rasheeduzzafar A.S, Al-Gahtani S.S, Al-Saadoun S.S., “Influence of Construction Practices on Concrete Durability”, ACI Material Journal, pp-566-575, (1989).
Tasdemir C., “Combined Effects of Mineral Admixtures and Curing Conditions on the Sorptivity Coefficient of Concrete”, Cement Concrete Research, Vol-33(10), pp-1637-1642, (2003).
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