Page 372 - Handbook of Thermal Analysis of Construction Materials
P. 372
References 349
44. Duyang, D., Shao, J., Yang, B., He, J., and Xie, Y., Study on Steel-Iron
th
Slag Clinker Systems, 4 CANMET/ACI Int. Conf. on Fly Ash, Silica
Fume, Slag and Natural Pozzolans in Concr., Istanbul, Turkey,
supplementary papers, pp. 649–666 (1992)
45. Douglas, E., Mainwaring, P. R., and Hemmings, R. T., Pozzolanic Properties
of Canadian Non-Ferrous Slags, Int. Conf. on Fly Ash, Silica Fume, Slag
and Natural Pozzolans in Concr., (V. M. Malhotra, ed.), Vol. 2, SP-
91:1525–1550 (1986)
46. Schutter, G. D., Hydration and Temperature Development in Concrete
Made with Blast-Furnace Slag Cement, Cement Concr. Res., 29:143–149
(1999)
47. Chopra, S. K., and Kishan, L., See Ramachandran, V. S., Applications of
Differential Thermal Analysis in Cement Chemistry, p. 202, Chemical
Publ. Co., New York (1969)
48. Litvan, G. G., and Meyer, A., Carbonation of Granulated Blast Furnace
Cement Concrete During 20 Years of Field Exposure, Int. Conf. on Fly
Ash, Silica Fume, Slag and Natural Pozzolans in Concr., (V. M. Malhotra,
ed.), Vol. 2, SP-91:1445–1462 (1986)
49. Singh, M., and Garg, M., Activation of Gypsum Anhydrite-Slag Mixtures,
Cement Concr. Res., 25:332–338 (1995)
50. Tashiro, T., and Yoshimoto, T., Effect of Sodium Compounds on the
Strength and Microstructural Development of Blast Furnace Slag Cement
rd
Mortars, Proc. 3 CANMET/ACI Conf. on Fly Ash, Silica Fume, Slag
and Natural Pozzolans in Concr. (V. M. Malhotra, ed.), Vol. 2, SP-
114:1307–1323 (1989)
51. Wang, S. D., and Scrivens, K. L., Hydration Products of Alkali Activated
Slags, Cem. Concr. Res., 25:561–571 (1995)
52. Mehta, P. K., The Chemistry and Technology of Cements Made from Rice
Husk Ash, Proc. UNIDO/ESCAP/RCTT Workshop on Rice Husk Ash,
Peshawar, Pakistan, pp. 113–122 (1979)
53. Ramachandran, V. S., (ed.), Concrete Admixtures Handbook, p. 626,
Noyes Publ., NJ, (1984)
54. Borthakur, P. C., Saikia, P. C., and Dutta, S. N., Physico-Chemical
Characteristics from Paddy Husk; Its Reactivity and Probable Field of
Application, Indian Ceramics, 25:25–29 (1980)
55. Shah, R. A., Khan, A. H., Chaudhry, M. A., and Qaiser, M. A., Utilization
of Rice Husk Ash for the Production of Cement-Like Materials in Rural
Areas, Pakistan J. Sci. Ind. Res., 24:121–124 (1981)
56. Hanafi, S., El-Enein, A., Ibrahim, D. M., and El-Hemaly, S. A., Surface
Properties of Silicas Produced by Thermal Treatment of Rice-Husk Ash,
Thermochimica Acta, 37:137–143 (1980)