Abstract
In this study, the paper of Khelifi et al. is discussed. The discussion is about the mathematical models.
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Khelifi H, Perrot A, Lecompte T, Ausias G (2012) Design of clay/cement mixtures for extruded building products. Mater Struct. doi:10.1617/s11527-012-9949-4
Kawamura M, Kasai Y (2011) Mix design and strength of soil-cement concrete based on the effective water concept. Mater Struct 44:529–540
Neville AM (1996) Properties of concrete. Addison Wesley Longman, Harlow
Neville AM (1959) Tests on the strength of high-alumina cement concrete. N Z Eng 14(3):73–76
Alexander KM, Ivanusec I (1982) Long term effects of cement SO3 content on the properties of normal and high-strength concrete, Part I. The effect on strength. Cem Concr Res 12(1):51–60
Kakizaki M, Edahiro H, Tochigi T, Niki T (1992) Effect of mixing method on mechanical properties and pore structure of ultra high-strength concrete, Katri Report No. 90 Kajima Corporation, Tokyo (and also in ACI SP132-54 132:997–1016)
Çolak A (2006) A new model for the estimation of compressive strength of Portland cement concrete. Cem Concr Res 36(7):1409–1413
Lea FM (1970) The chemistry of cement and concrete. Edward Arnold, London
Nielsen LF (1993) Strength development in hardened cement paste: examination of some empirical equations. Mater Struct 26(5):255–260
Popovics S (1998) Strength and related properties of concrete: a quantitative approach. Wiley, New York
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Çolak, A., Coşgun, T. Discussion of the paper titled “Design of clay/cement mixtures for extruded building products by Khelifi et al.”. Mater Struct 46, 513–515 (2013). https://doi.org/10.1617/s11527-012-0002-4
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DOI: https://doi.org/10.1617/s11527-012-0002-4