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On the Correlation of Expandability with Mineralogy and Layering in Mixed-Layer Clays

Published online by Cambridge University Press:  02 April 2024

Barbara Ransom
Affiliation:
Department of Geology and Geophysics, University of California, Berkeley, California 94720
Harold C. Helgeson
Affiliation:
Department of Geology and Geophysics, University of California, Berkeley, California 94720
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Abstract

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Type
Notes
Copyright
Copyright © 1989, The Clay Minerals Society

References

Ahn, J. H. and Peacor, D. R., 1986 Transmission and analytical electron microscopy of the smectite-to-illite transition Clays & Clay Minerals 34 165179.Google Scholar
Bailey, S. W., Brindley, G. W., Fanning, D. S., Kodama, H. and Martin, R. T., 1984 Report of The Clay Minerals Society Nomenclature Committee for 1982 and 1983 Clays & Clay Minerals 32 239240.CrossRefGoogle Scholar
Blahoslav, C. and Kranz, G., 1981 Mechanism of mont-morillonite structure degradation by percussive grinding Clay Miner. 16 151162.Google Scholar
Dana, J. D., 1868 A System of Mineralogy 5th ed. New York Wiley.Google Scholar
Eberl, D. D., Srodon, J., Lee, M., Nadeau, P. H. and Northrop, H. R., 1987 Sericite from the Silverton caldera, Colorado: Correlation among structure, composition, origin, and particle thickness Amer. Mineral. 72 913934.Google Scholar
Eberl, D. D., Srodon, J. and Northrop, H. R., 1986 Potassium fixation in smectite by wetting and drying Geo-chemical Processes at Mineral Surfaces 323 296326.CrossRefGoogle Scholar
Fenner, P. and Heller, L., 1966 Clay mineral studies: Results of investigation or preparation Proc. Int. Clay Conf, Jersalem, 1966, Vol. 1 Jerusalem Israel Prog. Sci. Trans. 401423.Google Scholar
Fenner, P., 1967 Preliminary study of effects of illite comminution 2 241243.Google Scholar
Frye, K., 1981 The Encyclopedia of Mineralogy Pennsylvania Hutchinson Ross Publishing Co., Stroudsburg.Google Scholar
Grim, R. E., Bray, R. H. and Bradley, W. F., 1937 The mica in argillaceous sediments Amer. Mineral. 22 813829.Google Scholar
Hower, J., Eslinger, E. V., Hower, M. E. and Perry, E. A., 1976 Mechanism of burial metamorphism of argillaceous sediment: 1. Mineralogical and chemical evidence Geol. Soc. Amer. Bull. 87 725737.2.0.CO;2>CrossRefGoogle Scholar
Hower, J. and Mowatt, T. C., 1966 The mineralogy of illites and mixed-layer illite-montmorillonites Amer. Mineral. 51 825853.Google Scholar
Inoue, Atsuyuki, 1987 Chemical and Morphological Evidence for the Conversion of Smectite to Illite Clays and Clay Minerals 35 2 111120.CrossRefGoogle Scholar
Mamy, J. and Gaultier, J. P. (1976) Etude de l’évolution de l’ordre cristallin dans la montmorillonite en relation avec la diminution d’exchangabilité du potassium: in Proc. Int. Clay Conf., Mexico City, 1975, Bailey, S. W., ed., Applied Publishing Co., Wilmette, Illinois, 149155.Google Scholar
Mamy, J. and Gaultier, J. P., 1979 Etude comparée de l’évolution des montmorillonites biioniques K-Ca de Camp-Berteaux et du Wyoming sous l’effet des cycles d’humec-tation et de dessiccation Clay Miner. 14 181191.CrossRefGoogle Scholar
McHardy, W. J., Wilson, M. J. and Tait, J. M., 1982 Electron microscope and X-ray diffraction studies of filamentous illitic clay from sandstones of the Magnus field Clay Miner. 17 2339.CrossRefGoogle Scholar
Nadeau, P. H., 1985 The physical dimensions of fundamental clay particles Clay Miner. 20 499514.CrossRefGoogle 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
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
Nickel, E. H. and Mandarino, J. A., 1987 Procedures involving the IMA commission on new minerals and mineral names and the guidelines on mineral nomenclature Amer. Mineral. 72 10311042.Google Scholar
Perry, E. and Hower, J., 1970 Burial diagenesis in Gulf Coast pelitic sediments Clays & Clay Minerals 18 165177.CrossRefGoogle Scholar
Plançon, A., Besson, G., Gaultier, J. P., Mamy, J. and Tchoubar, C. (1978) Qualitative and quantitative study of a structural reorganization in montmorillonite after potassium fixation: in Proc. Int. Clay Conf., Oxford, 1978, Mortland, M. M. and Farmer, V. C., eds., Elsevier, Amsterdam, 4554.Google Scholar
Srodon, J., Morgan, D. J., Eslinger, E. V., Eberl, D. D. and Karlinger, M. R., 1986 Chemistry of illite/smectite and end-member illite Clays & Clay Minerals 34 368378.CrossRefGoogle Scholar
Whitney, G. and Northrop, H. R., 1988 Experimental investigation of the smectite to illite reaction: Dual reaction mechanisms and oxygen-isotope systematics Amer. Mineral. 73 7790.Google Scholar