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Hydrothermal Synthesis of Ammonium-Beidellite

Published online by Cambridge University Press:  28 February 2024

J. T. Kloprogge
Affiliation:
TPD-TNO, Department of Inorganic Materials Chemistry, P.O. Box 595, 5600 AN Eindhoven, The Netherlands
R. Vogels
Affiliation:
Department of Inorganic Chemistry, Heterogeneous Catalysis, Utrecht University, P.O. Box 80083, 3508 TB Utrecht, The Netherlands
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Abstract

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Type
Notes
Copyright
Copyright © 1995, The Clay Minerals Society

References

Barrer, R. M., and Denny, P. J. 1961 . Hydrothermal chemistry of the silicates. Part IX. J. Chem. Soc. 971982.CrossRefGoogle Scholar
Deer, W. A., Howie, R. A., and Zussman, J. 1992 . An Introduction to the Rock-Forming Minerals. Harlow, England: Longman Scientific & Technical, 696 pp.Google Scholar
Hamilton, D. L., and Henderson, C. M. B. 1968 . The preparation of silicate compositions by a gelling method. Mineral. Mag. 36: 832838.Google Scholar
Kloprogge, J. T., Jansen, J. B. H., and Geus, J. W. 1990a . Characterization of synthetic Na-beidellite. Clays & Clay Miner. 38: 409414.CrossRefGoogle Scholar
Kloprogge, J. T., van der Eerden, A. M. J., Jansen, J. B. H., and Geus, J. W. 1990b . Hydrothermal synthesis of Nabeidellite. Geologie & Mijnbouw 69: 351357.Google Scholar
Kloprogge, J. T., Breukelaar, J., Jansen, J. B. H., and Geus, J. W. 1993a . Development of ammonium-saponites from gels with variable ammonium concentration and water content at low temperatures. Clays & Clay Miner. 41: 103110.CrossRefGoogle Scholar
Kloprogge, J. T., van der Eerden, A. M. J., Jansen, J. B. H., Geus, J. W., and Schuiling, R. D. 1993b . Synthesis and paragenesis of Na-beidellite as function of temperature, water pressure and sodium activity. Clays and Clay Miner. 41: 423430.CrossRefGoogle Scholar
Plee, D., Gatineau, L., and Fripiat, J. J. 1987 . Pillaring processes of smectites with and without tetrahedral substitution. Clays & Clay Miner. 35: 8188.CrossRefGoogle Scholar
Schutz, A., Stone, W. E. E., Poncelet, G., and Fripiat, J. J. 1987 . Preparation and characterization of bidimensional zeolitic structures obtained from synthetic beidellite and hydroxy-aluminum solutions. Clays & Clay Miner. 35: 251261.CrossRefGoogle Scholar
Suquet, H., Iiyama, J. T., Kodama, H., and Pezerat, H. 1977 . Synthesis synthesis and swelling properties of saponites with increasing layer charge. Clays & Clay Miner. 25: 231242.CrossRefGoogle Scholar
Voncken, J. H. L., Konings, R. J. M., Jansen, J. B. H., and Woensdregt, C. F. 1988 . Hydrothermally growth buddingtonite, an anhydrous ammonium feldspar. Phys. Chem. Miner. 15: 323328.CrossRefGoogle Scholar
Voncken, J. H. L., Wevers, J. M. A. R., van der Eerden, A. M. J., Bos, A., and Jansen, J. B. H. 1987 . Hydrothermal synthesis of tobelite, NH4Al2Si3O10(OH)2, from various starting materials and implications for its occurrence in nature. Geologie & Mijnbouw 66: 259269.Google Scholar