Hostname: page-component-848d4c4894-jbqgn Total loading time: 0 Render date: 2024-07-04T05:19:19.821Z Has data issue: false hasContentIssue false
  • English
  • Français

Dehydration and rehydration of vermiculites: II. Phlogopitic Ca-vermiculite

Published online by Cambridge University Press:  09 July 2018

H. Graf v. Reichenbach  and
J. Beyer
H. Graf v. Reichenbach
Affiliation:
Institute of Soil Science and SFB 173, University of Hannover, 30419 Hannover, Germany
J. Beyer
Affiliation:
Institute of Soil Science and SFB 173, University of Hannover, 30419 Hannover, Germany
Get access Rights & Permissions [Opens in a new window]

Abstract

Dehydration and rehydration of a phlogopitic Ca-vermiculite were studied by thermoanalysis (TG, DSC) and by in situ X-ray powder diffractometry. A detailed analysis of the relationship between temperature and state of hydration of the vermiculite close to equilibrium at atmospheric pressure was rendered possible by use of low heating rates in combination with a fast recording position-sensitive detector. The results reveal the existence of a number of distinct states of hydration characterized by basal spacings of 1.515, 1.493, 1.473, 1.188, 1.176 and 0.95 nm. In confirmation of results obtained earlier with Mg-vermiculite, regular interstratification occurred at dehydration during the transition between two- to one- and between one- to zero-layer hydrates showing integral series of 00l reflections with basal spacings of 2.67 and 2.11 nm, respectively.

Type
Research Article
Information
Clay Minerals , Volume 30 , Issue 4 , December 1995 , pp. 273 - 286
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Barshad, I. (1948) Vermiculite and its relation to biotite as revealed by base exchange reactions, X-ray analyses, differential thermal curves and water content. Am. Miner. 33, 655678.Google Scholar
Calle, C. de la & Suquet, H. (1988) Vermiculites. Pp. 455–496 in : Hydrous Phyllosilicates (Exclusive of Micas). (Bailey, S.W., editor). Reviews in Mineralogy, Vol. 19, Mineralogical Society of America, Washington, DC.Google Scholar
Calle, C. de la, Pezerat, H. & Gasperin, M. (1977) Problèmes d'ordre–désordre dans les vermiculites. Structure du minéral calcique hydraté à 2 couches. J. Physique, Colloque c7, Supplement au n° 12, 38, 128133.Google Scholar
Calle, C. de la, Suquet, H. & Pezerat, H. (1985) Vermiculites hydratées à une couche. Clay Miner. 20, 221-230.Google Scholar
Calle, C. de la, Suquet, H., Dubernat, J. & Pezerat, H. (1978) Mode d'empilement des feuillets dans les vermiculites hydratées à ‘deux couches'. Clay Miner. 13, 221297.Google Scholar
Gorny, A. (1991) Einflub der Oxidation des oktaedrisch koordinierten Eisens auf das Dehydratationsverhalten von Vermiculiten. PhD thesis, Univ. Hannover, Germany.Google Scholar
Keay, J. & Wild, A. (1961) Hydration properties of vermiculite. Clay Miner. Bull. 4, 221228.CrossRefGoogle Scholar
Le Renard, J. & Mamy, J. (1971) Etude de la structure des phases hydratées des phlogopites alterees par des projections de Fourier monodimensionelles. Bull. Groupe franc. Argiles, 23, 119127.CrossRefGoogle Scholar
Mamy, J. & Gaultier, J. P. (1974) Etude par diffraction X de la desorption de l'eau fixee dans les espaces inteffeuillets des phlogopites alterees. Bull. Groupe franc. Argiles, 26, 165171.Google Scholar
Rausell-Colom, J.A., Fernandez, M., Serratosa, J.M., Alcover, J.F. & Gatineau, L. (1980) Organisation de l'espace interlamellaire dans les vermiculites monocouches et anhydres. Clay Miner. 29, 327340.Google Scholar
Reichenbach, H. Gray, V. & Bever, J. (1994) Dehydration and rehydration of vermiculites: I. Phlogopitic Mg-vermiculite. Clay Miner. 29, 327340.Google Scholar
Schotre, R. (1993) PH2O-T Stabilitätsdiagramme von Vermiculiten unterschiedlicher Kationenbelegung: Thermoanalytische Untersuchung. PhD thesis, Univ. Hannover, Germany.Google Scholar
Slade, P.J., Stone, P.A. & Radoslovich, E.W. (1985) Interlayer structures of the two layer hydrates of Na and Ca-vermiculites. Clays Clay Miner. 33, 51–61.Google Scholar
Thompson, T.D., Wentworth, S.A. & Brindley, G.W. (1967) Hydration states of an expanded phlogopite in relation to interlayer cations. Clay Miner. 7, 4349.CrossRefGoogle Scholar
Walker, G.F. (1961) Vermiculite minerals. Pp. 297-324 in: The X-ray Identification and Crystal Structures of Clay Minerals. (Brown, G., editor). Mineralogical Society, London.Google Scholar
Walker, G.F. & Milne, A. (1950) Hydration of vermiculites saturated with various cations. Trans. Int. Congr. Soil Sci. 2, 6267.Google Scholar