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Kaolinite Crystallization at Room Temperature by Homogeneous Precipitation—III: Hydrolysis of Feldspars

Published online by Cambridge University Press:  01 July 2024

A. La Iglesia ,
J. L. Martin-Vivaldi Jr.  and
F. Lopez Aguayo
A. La Iglesia
Affiliation:
Departamento de Cristalografia y Mineralogia, Facultad de Ciencias Geologicas, Universidad Complutense de Madrid, Spain
J. L. Martin-Vivaldi Jr.
Affiliation:
Departamento de Cristalografia y Mineralogia, Facultad de Ciencias Geologicas, Universidad Complutense de Madrid, Spain
F. Lopez Aguayo
Affiliation:
Departamento de Cristalografia y Mineralogia, Facultad de Ciencias Geologicas, Universidad Complutense de Madrid, Spain
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Abstract

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The kaolinite crystallization by homogeneous precipitation with previous hydrolysis of the feldspars added has been followed by pH and potassium concentration measurements. The synthesized products were studied by X-ray powder diffraction and electron microscopy and consist of kaolinite and mica, accompanied occasionally by traces of smectite. The relative quantities of the synthesized minerals depend fundamentally on the supply rate of the alkaline ions.

Type
Research Article
Information
Clays and Clay Minerals , Volume 24 , Issue 1 , February 1976 , pp. 36 - 42
Copyright
Copyright © 1976 The Clay Minerals Society

References

Caillère, S. and Henin, S., (1948) Sur la preparation et quelques caractères d’une série d’aluminates hidrates C.r. Acad. Sci. Paris 226 580.Google Scholar
Caillère, S. et Henin, S. (1962) Vues d’ensemble sur le problème de synthèse des mineraux phylliteux à basse temperature: Genèse et synthèse des Argiles: C.N.R.S. Paris. No. 105, pp. 3143.Google Scholar
Galan Huertos, E. and Martin Pozas, J. M., (1971) Mineralogia de los caolines de La Guardia y El Rosal (Pontevedra, España) Estud. Geol. 27 7580.Google Scholar
Garrels, R. M. and Howard, P., (1959) Reactions of feldspar and mica with water at low temperature and pressure Clays and Clay Minerals 6th Nat. Conf. Oxford Pergamon Press 6889.Google Scholar
Gastuche, M. C., Fripiat, J. J. et De Kimpe, C. (1962) La genèse des mineraux argileux de la famille du kaolin—I: Aspect colloidal: Genèse et synthèse des Argiles: C.N.R.S. Paris. No. 105, pp. 5765.Google Scholar
Huang, W. H., (1973) New stability diagrams of some clay minerals in aqueous solution Nat. Phys. Sci. 243 3537.CrossRefGoogle Scholar
Huang, W. H. and Keller, W. D., (1973) New stability diagrams of some phyllosilicates in the SiO2–Al2O3–K2O–H2O system Clays and Clay Minerals 21 331336.CrossRefGoogle Scholar
La Iglesia, A. and Martin Vivaldi, J. L., (1972) A contribution to the synthesis of kaolinite Proc. 1972 Int. Clay Conf. 1 173185.Google Scholar
La Iglesia, A. and Serna, S., (1974) Cristalizacion de caolintia por precipitacion homogenea a temperature ambiente—II: Empleo de resinas canonicas en fase (H) Estud. Geol. 30 281287.Google Scholar
La Iglesia, A. and Martin Vivaldi, J. L. (1974) Synthesis of kaolinite by homogeneous precipitation at room temperature—I: Against anionic resins in (OH) form: 2nd Meeting of the European Clay Groups, Strasbourg.Google Scholar
Kinoshita, K. and Muchi, M., (1954) Bauxitic clay derived from volcanic ash Kyushukozan-gakkai 22 279291.Google Scholar
Linares, J. and Huertas, F., (1971) Kaolinite synthesis at room temperature Science 171 896897.CrossRefGoogle ScholarPubMed
Ponder, H. and Keller, W. D., (1960) Geology, mineralogy and genesis of selected fire-clays from Latah Country, Idaho Clays and Clay Minerals 8th Nat. Conf. Oxford Pergamon Press 4463.CrossRefGoogle Scholar
Siffert, B. and Wey, R., (1972) Contribution à la connaissance de la synthèse des kaolins Proc. Int. Clay Conf. 1 159182.Google Scholar
Sudo, T. and Takahashi, H., (1956) Shapes of halloysite particles in Japanese clays Clays and Clay Minerals 4th Nat. Conf. Washington Academic 6779.Google Scholar