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On a Definition of Illite/Smectite Mixed-Layer

Published online by Cambridge University Press:  02 April 2024

Necip Güven
Necip Güven*
Affiliation:
Department of Geosciences, Texas Tech University, P.O. Box 4109, Lubbock, Texas 79409
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Abstract

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Information
Clays and Clay Minerals , Volume 39 , Issue 6 , December 1991 , pp. 661 - 662
Copyright
Copyright © 1991, The Clay Minerals Society

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References

Ahn, J. H. and Buseck, P. R., 1990 Layer-stacking sequences and structural disorder in mixed-layer illite/smectite: Image simulations and HRTEM imaging Amer. Mineral. 75 267275.Google Scholar
Ahn, J. H. and Peacor, D. R., 1986 Transmission electron microscope data for rectorite: Implications for the origin and structure of “fundamental particles” Clays & Clay Minerals 34 180186.Google Scholar
Altaner, S. P., Weiss, C. A. Jr. and Kirkpatrick, R. J., 1988 Evidence from 29Si NMR for the structure of mixed-layer illite/smectite clay minerals Nature 331 669702.CrossRefGoogle Scholar
Brown, G., 1984 Crystal structure of clay minerals and related phyllosilicates Phil. Trans. Royal Soc. London A311 221240.Google Scholar
Guthrie, G. D. and Veblen, D. R., 1989 High-resolution transmission electron microscopy of mixed-layer illite/smectite: Computer simulations Clays & Clay Minerals 37 111.CrossRefGoogle Scholar
Güven, N. and Huang, W. L., 1991 Effects of octahedral Mg2+ and Fe3+ substitutions on hydrothermal illitization reactions Clays & Clay Minerals 39 387399.CrossRefGoogle Scholar
Inoue, A., Kohyama, N., Kitagawa, R. and Watanabe, T., 1987 Chemical and morphological evidence for the conversion of smectite to illite Clays & Clay Minerals 35 111120.CrossRefGoogle Scholar
Inoue, A., Velde, B., Meunier, A. and Touchard, G., 1988 Mechanism of illite formation during smectite-to-illite conversion in a hydrothermal system Amer. Mineral. 73 13251334.Google Scholar
Lagaly, G., 1979 The “layer charge” of regular interstratified 2:1 clay minerals Clays & Clay Minerals 27 110.CrossRefGoogle Scholar
Nadeau, P. H., Wilson, M. J., McHardy, W. J. and Tait, J. M., 1984 Interstratified XRD characteristics of physical mixtures of elementary clay particles Clay Miner. 19 6776.CrossRefGoogle Scholar
Nadeau, P. H., Wilson, M. J., McHardy, W. J. and Tait, J. M., 1984 Interparticle diffraction: A new concept for interstratified clays Clay Miner. 19 757769.CrossRefGoogle Scholar
Nadeau, P. H., Wilson, M. J., McHardy, W. J. and Tait, J. M., 1984 Interstratified clays of fundamental particles Science 225 923925.CrossRefGoogle ScholarPubMed
Sudo, T., Hayashi, H., Shimoda, S. and Swineford, A., 1962 Mineralogical problems of intermediate clay minerals Clays and Clay Minerals, Proc. 9th Natl. Conf., West Lafayette, Indiana, 1960 New York Pergamon Press 378388.Google Scholar
Veblen, D. R., Guthrie, G. D. Jr. Livik, J. T. and Reynolds, R. C. Jr., 1990 High-resolution transmission electron microscopy and electron diffraction of mixed-layer illite/smectite: Experimental results Clays & Clay Minerals 38 113.CrossRefGoogle Scholar
Weiss, A., Becker, H. O., Lagaly, G. and Heller, L., 1970 Determination of charge density sequence in regular interstratified mica-type layer silicates in allevardite from Hungary Proc. Int. Clay Conf, Tokyo, 1969, Vol. 2 Jerusalem Israel Univ. Press 6773.Google Scholar