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The Clay Mineralogy of the Haldon Gravels

Published online by Cambridge University Press:  09 July 2018

R. J. O. Hamblin*
Affiliation:
Institute of Geological Sciences, 5 Princes Gate, London S. W. T

Abstract

The less than 10 μm and less than 3 μm fractions of the heterogenous Haldon Gravels have been examined by X-ray diffractometry. Kaolinite of high to low crystallinity is the dominant clay mineral, with variable amounts of illite (clay mica) ; quartz, a little feldspar and anatase also occur. The kaolinite has been ranked using the crystallinity index of Hinckley and also by indices derived from the ratio of peak height to background height for the 10 and 11 peaks.

Clay from the matrix of the psaphitic members of the Buller's Hill Gravel contains intermediate grade kaolinite with a little illite, but clay bodies included in this formation contain only low grade kaolinite with a high, but variable proportion of illite. The Tower Wood Gravel contains two distinct populations; one is identical to that of the Buller's Hill Gravel, the other consists of high crystallinity kaolinite with a little illite. Head Gravel formed from the Buller's Hill Gravel by solifluction contains intermediate to low crystallinity kaolinite.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1973

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References

Brindley, G.W. & Robinson, K. (1946) Trans. Faraday Soc. 42b, 198.Google Scholar
Bristow, C.M. (1968) Proc. Ussher Soc. 2, 29.Google Scholar
Eckhardt, F.J. (1960) Z. dt. geol. Ges. 112, 188.Google Scholar
Grimshaw, R.W., Heaton, E. & Roberts, A.L. (1945) Trans. Br. Ceram. Soc. 44, 69.Google Scholar
Hamblin, R.J.O. (1969) Ph.D thesis, University of Exeter.Google Scholar
Hinckley, D.N. (1961) Tech. Rep. Mineral Industries Experiment Station. College of Mineral Industries, Pennsylvania State University.Google Scholar
Hinckley, D.N. (1963) Clays Clay Miner. In: Proe. 11th Conf. p. 229. Pergamon Press, London.Google Scholar
Jonas, E.C. (1964) Clays Clay Miner. In: Proe. 12th Conf. p. 199. Pergamon Press, London.Google Scholar
Klinefelter, T.A., O'Meara, R.C., Truesdell, O.C. & Gottueb, S. (1943) Rep. U.S. Bur. Mines, 3682.Google Scholar
Sabine, P., Young, B.R. & Dangerfield, J. (1963) Clay Miner. Bull. 5, 248.CrossRefGoogle Scholar
Shover, E.F. (1964) Clays Clay Miner. In: Proe. 12th Conf. p. 431. Pergamon Press, London.Google Scholar
Walker, C.T. (1963) J. sedim. Petrol. 33, 694.Google Scholar