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Problems in Identification of Montmorillonite and Beidellite

Published online by Cambridge University Press:  02 April 2024

P. B. Malla  and
L. A. Douglas
P. B. Malla
Affiliation:
Department of Soils and Crops, Rutgers University, New Brunswick, New Jersey 08903
L. A. Douglas
Affiliation:
Department of Soils and Crops, Rutgers University, New Brunswick, New Jersey 08903
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Abstract

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Keywords

BeidelliteGreene-Kelly testIdentificationLayer chargeLithiumMontmorilloniteSwelling
Type
Research Article
Information
Clays and Clay Minerals , Volume 35 , Issue 3 , June 1987 , pp. 232 - 236
Copyright
Copyright © 1987, The Clay Minerals Society

References

Besson, G., 1980 Structure des smectites dioctaédrique, paramètres conditionnant les fautes d’empliment des feuillets France Univ. Orléans, Orléans.Google Scholar
Brindley, G. W. and Ertem, G., 1971 Preparation and solvation properties of some variable charge montmorillonites Clays & Clay Minerals 19 399404.CrossRefGoogle Scholar
Bystrom Brusewitz, A. M. and Bailey, S. W., 1976 Studies on the Li test to distinguish between beidellite and montmorillonite Proc. Int. Clay Conf., Mexico City, 1975 Illinois Applied Publishing, Wilmette 419428.Google Scholar
Calvet, R. and Prost, R., 1971 Cation migration into empty octahedral sites and surface properties of clays Clays & Clay Minerals 19 175186.CrossRefGoogle Scholar
Clementz, D. M. and Mortland, M. M., 1974 Properties of reduced charge montmorillonite: Tetra-aUcylammonium ion exchange forms Clays & Clay Minerals 22 223229.CrossRefGoogle Scholar
Clementz, D. M., Mortland, M. M. and Pinnavaia, T. J., 1974 Properties of reduced charge montmorillonites: Hydrated Cu(II) ions as a spectroscopic probe Clays & Clay Minerals 22 4957.CrossRefGoogle Scholar
Douglas, L. A., Olphen, H. v. and Veniale, F., 1982 Smectites in acidic soils Proc. Int. Clay Conf., Bologna, Pavia, Italy, 1981 Amsterdam Elsevier 635640.Google Scholar
Ertem, G., 1972 Irreversible collapse of montmorillonite Clays & Clay Minerals 20 199205.CrossRefGoogle Scholar
Greene-Kelly, R., 1953 Irreversible dehydration in montmorillonite. Part II Clay Mineral. Bull. 1 5256.CrossRefGoogle Scholar
Greene-Kelly, R., 1955 Dehydration of montmorillonite minerals Mineral. Mag. 30 604615.Google Scholar
Grim, R. E. and Giivan, N., 1978 Bentonite: Geology, Mineralogy, Properties and Uses Netherlands Elsevier, Amsterdam.Google Scholar
Hofmann, V. U. and Klemen, R., 1950 Verlust der Austauschfahigkeit von Lithiumionen an Bentonit durch Erhitzung Z. Anorgan. Chemie 262 9599.CrossRefGoogle Scholar
Lagaly, G. F., Gonzalez, M. and Weiss, A., 1976 Problems in layer-charge determination of montmorillonites Clay Miner. 11 173187.CrossRefGoogle Scholar
Lagaly, G., Weiss, A. and Heller, L., 1969 Determination of the layer charge in mica-type layer silicates Proc. Int. Clay. Conf., Tokyo, 1969, Vol. 1 Jerusalem Israel Univ. Press 6180.Google Scholar
Maes, A., Stul, M. S. and Cremers, A., 1979 Layer chargecation-exchange capacity relationships in montmorillonite Clays & Clay Minerals 27 387392.CrossRefGoogle Scholar
Malla, P. B., Douglas, L. A., Olphen, H. v., Schultz, L. G. and Mumpton, F. A., 1987 Identification of expanding layer silicates: Layer charge vs. expansion properties Proc. Int. Clay Conf, Denver, 1985 Indiana The Clay Minerals Society, Bloomington 277283.Google Scholar
Nadeau, P. H., Farmer, V. C., McHardy, W. J. and Bain, D. C., 1985 Compositional variations of the Unterrupsroth beidellite Amer. Mineral. 70 10041010.Google Scholar
Ross, C. S. and Hendricks, S. B. (1945) Minerals of the montmorillonite group: Their origin and relation to soils and clays: U.S. Geological Surv. Prof. Pap. 205–B, 79 pp.Google Scholar
Ross, G. J. and Mortland, M. M., 1966 A soil beidellite Soil Sci. Soc. Amer. Proc. 30 337343.CrossRefGoogle Scholar
Ruehlicke, G. U. and Kohler, E. E., 1981 A simplified procedure for determining layer charge by n-alkylammonium method Clay Miner. 10 305307.CrossRefGoogle Scholar
Schneiderhohn, P., 1956 Nontronit von Hohen Hagen und Chloropal vom Meenser Steinberg bei Göttingen Tschermaks Min. Pet. Mitt. 10 385399.CrossRefGoogle Scholar
Schultz, L. G., 1969 Lithium and potassium absorption, dehydroxylation temperature and structural water content of aluminous smectites Clays & Clay Minerals 115149.CrossRefGoogle Scholar
Senkayi, A. L., Dixon, L. B., Hossner, L. R. and Kippenberger, L. A., 1985 Layer charge evaluation of expandable soil clays by an alkylammonium method Soil Sci. Soc. Amer. J. 49 10541060.CrossRefGoogle Scholar
Stul, M. S. and Mortier, W. J., 1974 The heterogeneity of the charge density in montmorillonite Clays & Clay Minerals 28 391395.CrossRefGoogle Scholar
Tsipursky, S. I. and Drits, V. A., 1984 The distribution of octahedral cations in the 2:1 layers of dioctahedral smectites studied by oblique-texture electron diffraction Clay Miner. 19 177193.CrossRefGoogle Scholar