Statistical Modeling of Cement Heat of Hydration Using Phase and Fineness Variables (2010)

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55 REFERENCES 1 Portland Cement, Concrete, and Heat of Hydration, Concrete Technology Today, Vol. 18, No. 2, July 1997. 1 L. Wadsö, “Applications of an eight-channel isothermal conduction calorimeter for cement hydration studies,” Cement International, No. 5, 2005, pp. 94-101. 1 H.F.W. Taylor, Cement Chemistry, Thomas Telford, London, 1997 1 L.E. Copeland, D.L. Kantro, and G. Verbeck, “Chemistry of Hydration of Portland Cement,” Paper IV-3, pp. 429-463, Fourth International Symposium on the Chemistry of Cement, Washington, D.C., 1960 1 R.H. Bogue, “Calculation of the Compounds in Portland Cement”, PCA Fellowship Paper No. 21, October, 1929. Also – Industrial and Engineering Chemistry, Vol. 1, No. 4, P. 192, Oct 15, 1929. 1 R.H. Bogue and Wm. Lerch, “Hydration of Portland Cement Compounds,” Portland Cement Association Fellowship at the National Bureau of Standards Paper No. 27, 30 pp., August 1934. 1 R.H. Bogue, The Chemistry of Portland Cement, Reinhold Publishing, New York, 1955. 1 L.J. Parrot and D.C. Killoh, “Prediction of Cement Hydration,” in British Ceramic Society Procedings 35, pp. 41-54, 1984. 1 Wm. Lerch, “The Influence of Gypsum on the Hydration Properties of Portland Cement Pastes,” Proceedings of the American Society for Testing Materials, Vol. 46, 1946. 1 F.J. Tang and E. M. Gartner, “Influence of sulfate source on Portland Cement hydration,” Advances in Cement Research, Vol. 1, No. 2, April, 1988. 1 J. Gebauer and M. Kristmann, “The Influence of the composition of industrial clinker on cement and concrete properties,” World Cement Technology, 10(2), March, 1979, 46- 51. 1 T.S. Poole, “Predicting Seven-Day Heat of Hydration of Hydraulic Cement from Standard Test Properties,” Journal of ASTM International, Vol. 6, No. 6, 10 pp., June 2009. 1 L. Breiman and J.H. Friedman, “Estimating Optimal Transformations for Multiple Regression and Correlation,” Journal of the American Statistical Association, Vol. 80, No. 391, Sept. 1985, pp. 580-598. 1 D. Wang and M. Murphy, “Estimating Optimal Transformations for Multiple Regression Using the ACE Algorithm,” Journal of Data Science 2(2004), 329-346. 1 D.M. Roy, P. Tilkalsky, B. Sheetz, and J. Rosenberger, “Relationship of Portland Cement Characteristics to Concrete Durability,” in, Research Results Digest, NCHRP Project 18-05, National Cooperative Highway Research Program, Transportation Research Board, Washington, DC, 2002 1 P. Stutzman and S. Leigh, “Phase Analysis of Hydraulic Cements by X-Ray Powder Diffraction: Precision, Bias, and Qualification,” Journal of ASTM International, Vol. 4, No. 5, JAI Paper ID JAI101085, 11pp., 2007. 1 ASTM C 1365, “Standard Test Method for Determination of the Proportion of Phases in Portland Cement and Portland-Cement Clinker Using X-ray Powder Diffraction Analysis” Annual Book of ASTM Standards, Vol. 4.01, ASTM International, West Conshohocken, PA.

56 1 R.A. Young, ‘Introduction to the Rietveld Method’, in IUCr Monographs on Crystallography, 5, The Rietveld Method, R.A. Young, ed., pp. 1-37, 1 L.J. Struble, L.A. Graf, J.I. Bhatty, “X-Ray Diffraction Analysis”, in Innovations in Portland Cement Manufacturing, Chapter 8.2, J.I. Bhatty, F. M. Miller, and S.H. Kosmatka, eds, PCA SP 400.01, 2004, 1367 pp. 1 R.J. Hill and C.J. Howard, ‘Quantitative Phase Analysis from Neutron Powder Diffraction Data Using the Rietveld Method,’ J. Appl. Cryst., 20, 467-474. 1 “Standard Test Methods for Fineness of Hydraulic Cement by Air-permeability Apparatus,” ASTM C 204-07, Annual Book of ASTM Standards, Vol. 4.01 1 “Standard Test Methods for Time of Setting of Hydraulic Cement by Vicat Needle” ASTM C 191, Annual Book of ASTM Standards, Vol. 4.01 1 F. Mosteller & J.W. Tukey (1977). Data analysis and regression : a second course in statistics. Addison-Wesley. 1 W.J. Dixon, ed., BMDP Statistical Software manual Volumes 1,2. University of California Press, Berkley, 1992. 1 R.H. Meyers, Classical and Modern Regression with Applications, Duxbury Press, Boston, 1986. 1 L.C. Hamilton, Regression with Graphics: A Second Course in Applied Statistics, Brooks/Cole/Wadsworth, Belmont, CA, 1992. 1 J. Neter, M.H. Kutner, C.J. Nachtsheim, and W. Wasserman, Applied Linear Statistical Models, 4th Edn., WCB/McGraw-Hill, Boston, 1996. 1 I.T. Jolliffee, Principal Component Analysis, Springer Verlag, New York, 1986. 1 T.J. Hastie and R.J. Tibshirani, Generalized Additive Models, London: Chapman and Hall, 1990. 1 M.J. Crawley, Statistical Computing: An Introduction to Data Analysis Using S-Plus, Chichester: John Wiley, 2002. 1 W.N. Venables and B.D. Ripley, Modern Applied Statistics with S-Plus, 3rd edn. New York: Springer, 1999. 1 J.I. Bhatty and P.D. Tennis, “U.E. and Canadian Cement Characteristics: 2004, PCA R&D SN2879, Portland Cement Association, 67 pp., 2008.