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The Fundamental Nature of Illite/Smectite Mixed-Layer Clay Particles: A Comment on Papers by P. H. Nadeau and Coworkers

Published online by Cambridge University Press:  02 April 2024

I. D. R. Mackinnon*
Affiliation:
Department of Geology, University of New Mexico, Albuquerque, New Mexico 87131
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Abstract

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Type
Comment
Copyright
Copyright © 1987, The Clay Minerals Society

References

Ahn, J. H. and Peacor, D. R., 1985 Transmission and analytical electron microscopy of the smectite-to-illite transition Clays & Clay Minerals 34 165179.Google Scholar
Brindley, G. W., Brindley, G. W. and Brown, G., 1980 Order-disorder in clay mineral structures Crystal Structures of Clay Minerals and their X-ray Identification London Mineralogical Society 125196.CrossRefGoogle Scholar
Chalcroft, J. P., 1985 Considerations for the quantitative analysis of coated reliefs Ultramicroscopy 16 371386.CrossRefGoogle ScholarPubMed
Drits, V. A., Plançon, A., Sakharov, B. A., Besson, G., Tsipursky, S. I. and Tchoubar, C., 1984 Diffraction effects calculated for structural models of K-saturated montmo-rillonite containing different types of defects Clay Miner. 19 541561.Google Scholar
Eggleton, R. A., 1984 Formation of iddingsite rims on olivine: A transmission electron microscope study Clays & Clay Minerals 32 111.CrossRefGoogle Scholar
Guckenberger, R., 1985 Surface reliefs derived from heavy-metal-shadowed specimens—Fourier space techniques applied to periodic objects Ultramicroscopy 16 357370.CrossRefGoogle Scholar
Klimentidis, R. E. and Mackinnon, I. D. R., 1986 High-resolution imaging of ordered mixed-layer clays Clays & Clay Minerals 34 155164.CrossRefGoogle Scholar
Kohyama, N., Fukushima, K., Fukami, A., Van Olphen, H. and Veniale, F., 1982 Interlayer hydrates and complexes of clay minerals observed by electron microscopy using an environmental cell Proc. Int. Clay Conf., Bologna, Pavia, 1981 Amsterdam Elsevier 373374.Google Scholar
McKee, T. R. and Buseck, P. R., 1978 HRTEM observation of stacking and ordered interstratification in rectorite Proc. 9th Int. Cong. Elect. Micros. 1 272273.Google Scholar
Nadeau, P. H., Tait, J. M., McHardy, W. J. and Wilson, M. J., 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 Interstratified clays as fundamental particles Science 225 923925.CrossRefGoogle ScholarPubMed
Page, R. and Wenk, H. R., 1979 Phyllosilicate alteration of plagioclase studied by transmission electron microscopy Geology 7 393397.2.0.CO;2>CrossRefGoogle Scholar
Reynolds, R. C., Brindley, G. W. and Brown, G., 1980 Interstratified clay minerals Crystal Structures of Clay Minerals and their X-ray Identification London Mineralogical Society 249304.CrossRefGoogle Scholar
Weir, A. H., Nixon, H. L., Woods, R. D. and Swineford, A., 1962 Measurement of thickness of dispersed clay flakes with the electron microscope Clays and Clay Minerals, Proc. 9th Natl. Conf, West Lafayette, Indiana, 1960 New York Pergamon Press 419423.Google Scholar
Wildhaber, I., Gross, H. and Moor, H., 1985 Comparative studies of very thin shadowing films produced by beam sputtering and electron beam evaporation Ultramicroscopy 16 321330.CrossRefGoogle Scholar
Yoshida, T., 1973 Elementary layers in the interstratified clay minerals as revealed by electron microscopy Clays & Clay Minerals 21 413420.CrossRefGoogle Scholar