Hostname: page-component-5c6d5d7d68-xq9c7 Total loading time: 0 Render date: 2024-08-16T04:58:29.120Z Has data issue: false hasContentIssue false
  • English
  • Français

The properties and uses of clays which swell in organic solvents

Published online by Cambridge University Press:  09 July 2018

T. R. Jones
T. R. Jones*
Affiliation:
English China Clays PLC, St Austell, Cornwall PL25 4DJ
Get access Rights & Permissions [Opens in a new window]

Abstract

The exchangable cations present on certain montmorillonites can be replaced by long-chain quarternary ammonium cations, and the resulting clays have the important property of being able to swell and disperse in a variety of organic solvents. Organophilic clays have a wide range of industrial applications and are, for example, important constituents of oil-well drilling fluids, paints, plastics and greases; their role in these is discussed. Organophilic clays have been extensively studied for about 50 years, but neither the structure nor the mechanisms by which they swell and disperse in organic solvents are clearly understood. An attempt is made to interpret the industrial applicatons in terms of published ideas concerning the structure and swelling properties of organophilic clays.

Type
Research Article
Information
Clay Minerals , Volume 18 , Issue 4 , December 1983 , pp. 399 - 410
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1983

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

Berezov, L.V., Ovcharenko, F.D., Guzeev, V.V. & Vdovenko, N.V. (1981) Effect of polar additions on the dispersion of organophilic bentonites in plastisol compositions (in Russian). Ukr. Khim. Zh. 47, 710714.Google Scholar
Burba, J.L. & McAtee, J.L. (1981) Adsorption of ethylene glycol on amine-substituted montmorillonites. Clays Clay Miner. 29, 6066.Google Scholar
Cornelis, A. & Laszlo, P. (1982) Clay-supported reagents: II. Quarternary ammonium exchanged montmorillonite as catalyst in the phase-transfer preparation of symmetrical formaldehyde acetals. Synthesis 162163.Google Scholar
Dekany, L., Szanto, F., Nagy, L.G. & Foti, G. (1975) Adsorption of liquid mixtures on bentonite and organophilic bentonite. J. Colloid Interface Sci. 50, 265271.Google Scholar
Gast, R.G. & Mortland, M.M. (1971) Self diffusion of alkylammonium ions in montmorillonite. J. Colloid Interface Sci. 37, 8092.Google Scholar
Klemm, L.H., Shabtai, J. & Bodily, K.C. (1980) Gas chromatography of some alkenyl- and cycloalkenyl- napthalenes on Bentone 34, silicone fluid DC 550, and Apiezon L phases. J. Chromat. 198, 16.Google Scholar
Krumgalz, B.S. (1982) Dimensions of tetra-alkyl(aryl)onium ions. J. Chem. Soc, Faraday Trans. 1 78, 437449.Google Scholar
Lagaly, G. (1981a) Characterisation of clays by organic compounds. Clay Miner. 16, 121.Google Scholar
Lagaly, G. (1981b) Inorganic layer compounds. Naturwissenschaften 68, 8288.Google Scholar
Maes, A., Marynen, P. & Cremers, A. (1977) The ion-exchange adsorption of alkylammonium ions: an alternative view. Clays Clay Miner. 25, 309310.CrossRefGoogle Scholar
Moraru, V.N., Markova, S.A. & Ovcharenko, F.D. (1980) Role of water in structure formation in hydrocarbon dispersions of organophilic montmorillonite. Kolloid Zh. (Engl. Transl.) 42, 4448.Google Scholar
Powell, T.W. (1982) Activators for organophilic clays in lubricating grease. NLGI Spokesman 270-277.Google Scholar
Slabaugh, W.H. & Hiltner, P.A. (1968) The swelling of alkylammonium montmorillonites. J. Phys. Chem. 72, 42954298.Google Scholar
Theng, B.K.J., Greenland, D.J. & Quirk, J.P. (1968) The effect of exchangeable alkylammonium ions on the swelling of montmorillonite in water. Clay Miner. 7, 271293.Google Scholar
Theng, B.K.J. (1974) The Chemistry of Clay-Organic Reactions, chapter 5. Adam Hilger, London.Google Scholar
Vold, R.D. & Phansalkar, V.K. (1962) Dispersion of alkylammonium montmorillonites in organic liquids. J. Colloid Sci. 17, 589600.Google Scholar
Walker, G.F. (1967) Interaction of n-alkylammonium ions with mica-type layer lattices. Clay Miner. 7, 129143.Google Scholar
Weiss, A. (1963) Mica-type layer silicates with alkylammonium ions. Clays Clay Miner. 10, 191224.CrossRefGoogle Scholar