References

ASTM C-78, 2002. Standard test method for flexural strength of concrete. http://astm.talarsaz.net/c78-02-standard-test-method-for-flexural-strength-of-concrete-using-simple-beam-with-third-point-loading/

ASTM., 2005. Standard practice for making and curing concrete test specimens in the laboratory. ASTM C192/192M-02, ASTM International, West Conshohocken, PA., USA.

Anonymous, 1984. Aggregate from natural sources for concrete and construction. Iraqi Specification Standards IQS No.45, Central Agency for Standardization and Quality Control, Planning Council, Baghdad, Iraq. (In Arabic)

Anonymous, 1984. Portland cement. Iraqi Specification Standards IQS No. 5, Central Agency for Standardization and Quality Control, Planning Council, Baghdad, Iraq. (In Arabic)

Anonymous, 1997. State-of-the-art report on high-strength concrete. ACI 363R-92, Michigan, USA.

Anonymous, 2000. Method for determination of compressive strength of concrete cubes. BSI Group 1881-Part 116:1983, UK.

Anonymous, 2002. Standard test method for static modulus of elasticity and poisson’s ratio of concrete in compression. ASTM International C 469-02, West Conshohocken, Pennsylvania, USA.

Anonymous, 2003. Standard test method for resistance of concrete to rapid freezing and thawing. ASTM International C 666/C 666M, West Conshohocken, Pennsylvania, USA.

Anonymous, 2004. Standard test method for splitting tensile strength of cylindrical concrete specimens. ASTM International C 496/C 496M-04, West Conshohocken, Pennsylvania, USA.

Cakır, O. and F. Akoz, 2008. Effect of curing conditions on the mortars with and without GGBFS. Constr. Build. Mater., 22: 308-314.
CrossRef  |  

Fathifazl, G., A.G. Razaqpur, O.B. Isgor, A. Abbas and B. Fournier et al., 2011. Creep and drying shrinkage characteristics of concrete produced with coarse recycled concrete aggregate. Cem. Concr. Compos., 33: 1026-1037.
CrossRef  |  

Kosmatka, S.H., B. Kerkhoff and W.C. Panarese, 2002. Design and Control of Concrete Mixtures. 14th Edn., Portland Cement Association, Skokie, Illinois, ISBN:9780893122171, Pages: 358.

Litvan, G.G. and A. Meyer, 1986. Carbonation of granulated blast furnace slag cement concrete during twenty years of field exposure. Special Publ., 91: 1445-1462.
Direct Link  |  

Maltais, Y. and J. Marchand, 1997. Influence of curing temperature on cement hydration and mechanical strength development of fly ash mortars. Cement Concrete Res., 27: 1009-1020.
CrossRef  |  

Neville, A.M., 1996. Properties of Concrete. 4th Edn., Pearson, London, England, UK., ISBN:9780582279384, Pages: 864.

Obla, K., F. Rodriguez and S. Ben-Barka, 2005. Effects on non-standard curing on strength of concrete: A research project at the NRMCA research laboratory. Concr. InFocus, 3: 57-59.
Direct Link  |  

Paya, J., J. Monzo, M.V. Borrachero, M.E. Peris and F. Amahjour, 2000. Mechanical treatment of fly ashes: Part IV. Strength development of ground fly ash-cement mortars cured at different temperatures. Cem. Concr. Res., 30: 543-551.
Direct Link  |  

Yogendran, V., B.W. Langan, M.N. Haque and M.A. Ward, 1987. Silica fume in high-strength concrete. Mater. J., 84: 124-129.
Direct Link  |