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Microstructure and Microchemistry of Calcium Sulfoaluminate Cement

Published online by Cambridge University Press:  21 February 2011

Ö. AndaÇ
Affiliation:
University of Aberdeen, Aberdeen AB9 2UE, Scotland
F.P. Glasser
Affiliation:
University of Aberdeen, Aberdeen AB9 2UE, Scotland
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Abstract

Calcium sulfoaluminate, 4CaO • 3Al2O3 • SO3, forms the basis of a new class of structural cements. Microstructural examination of commercial clinker is not easy because it is quite friable. However, backscattered imaging of impregnated clinker is successful and reveals an unusual pattern. The clinker has a sponge-like texture connecting better-sintered, denser regions. The microstructure is, however, very similar between regions of differing density. Irregular to equant, well-shaped crystals of 4CaO • 3Al2O3 • SO3 are enclosed in a matrix composed mainly of Ca2SiO4 together with a little titanium-rich, ferrite-like phase. The minor phases occluded within ferrite include oxide phases one of which concentrates Pb and Bi; the other, Cr, Fe and Ni. Other minor oxide phases in the matrix include lime, periclase, gehlenite and calcium sulfosilicate and probably bredigite. The crystal chemistry and elemental analyses of the individual phases are presented.

Type
Research Article
Copyright
Copyright © Materials Research Society 1995

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References

1. Muzhen, S., Junan, D., Zongdao, W. and Xioxin, L., in 9th International Congress on the Chemistry of Cement - New Delhi India 1992 edited and published by the National Council for Cement and Building Materials (India). Volume 2, pp. 94100.Google Scholar
2. AndaÇ, Ö. and Glasser, F. P. (in preparation).Google Scholar
3. AndaÇ, Ö.. PhD Thesis, University of Aberdeen (in preparation).Google Scholar
4. Mosely, D. and Glasser, F.P., Cement Concr. Res. 11, 559565 (1981).Google Scholar
5. Mosely, D. and Glasser, F.P.. J. Mater. Sci. 17, 2736–40 (1982).Google Scholar
6. Taylor, H.F.W., Cement Chemistry (Academic Press, London and San Diego CA. 1990: 2nd printing 1992) p. 475.Google Scholar
7. Marinho, M.B. and Glasser, F.P., Cement and Conc. Res. 14, 360368 (1984).Google Scholar
8. Wells, A.F., Structural Inorganic Chemistry 5th ed. (Clarendon Press, Oxford 1984) p. 1382.Google Scholar
9. Pliego-Cuervo, Y.B. and Glasser, F.P., Cement and Concr. Res. 9, 573581 (1978).Google Scholar
10. Pliego-Cuervo, Y.B. and Glasser, F.P., Cement and Concr. Res. 9, 5156 (1979).Google Scholar
11. Pliego-Cuervo, Y.B. and Glasser, F.P., Cement and Concr. Res. 8, 455460 (1978).Google Scholar