Hostname: page-component-76fb5796d-skm99 Total loading time: 0 Render date: 2024-04-29T13:16:21.144Z Has data issue: false hasContentIssue false
  • English
  • Français

Petrology of the Dry Branch, Georgia, Kaolin Deposits

Published online by Cambridge University Press:  01 January 2024

Edward C. Jonas
Edward C. Jonas*
Affiliation:
The University of Texas, Austin, USA
Get access Rights & Permissions [Opens in a new window]

Abstract

Samples from kaolin deposits in the Dry Branch, Georgia, area were examined in’ oriented thin section, by X-ray diffraction, and as carefully disaggregated sand-sized grains. The object was to determine the orientation of kaolinite crystals with respect to any gross stratification in the deposits and with respect to their mineral precursors.

Large muscovite grains show a preferred horizontal orientation which produces a noticeable stratification in some soft kaolins in which they are relatively abundant. Interleaved kaolinite is oriented with its cleavage parallel to that of the remaining unaltered muscovite and is of the b-axis disordered variety. Pseudomorphs of kaolinite after feldspar occur in both the soft kaolins and the associated sandstones. These show no preferred orientation and are well-crystallized kaolinite. Authigenic kaolinite growing as vermicular “books” in the kaolin deposits and sandstones shows no preferred orientation direction and is well-crystallized also.

These observations lead to the conclusion that these Georgia kaolin deposits were not sedimented in still-standing waters as the mineral kaolinite. Major mineral constituents of the original sediment were muscovite and feldspar. Post-depositional alteration of these minerals has occurred as well as recrystallization of some of the kaolinite.

Type
Symposium on Kaolinite
Information
Clays and Clay Minerals (National Conference on Clays and Clay Minerals) , Volume 12 , February 1963 , pp. 199 - 205
Copyright
Copyright © The Clay Minerals Society 1963

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

Bates, T. F. (1952) Interrelationships of structure and genesis of the kaolin group: Problems in Clay and Laterite Genesis, American Institute of Mining and Metallurgical Engineers, New York, pp. 144153.Google Scholar
Bates, T. F. (1959) Morphology and crystal chemistry of 1: 1 layer lattice silicates: American Mineralogist, v. 44, pp. 78114.Google Scholar
Glass, H. D. (1954) High temperature phases from kaolinite and halloysite: American Mineralogist, v. 39, pp.l93-207.Google Scholar
Kesler, T. L. (1952) Occurrence and exploration of Georgia's kaolin deposits: Problems of Clay and Laterite Genesis, American Institute of Mining and Metallurgical Engineers, New York, pp. 162177.Google Scholar
Kesler, T. L. (1956) Environment and origin of the Cretaceous kaolin deposits of Georgia and South Carolina: Economic Geology, v. 51, pp. 541554.CrossRefGoogle Scholar
Klinefelter, T. A., O'Meara, R. G., Truesdell, G. C., and Gottlieb, S. (1943) Hard and soft kaolins of Georgia: U.S. Bureau of Mines Report of Investigation 3682.Google Scholar
Murray, E. H. (1954) Structural variations of some kaolinites in relation to dehydrated halloysite: American Mineralogist, v. 39, pp. 97108.Google Scholar
Robertson, R. H. S., Brindley, G. W., and Mackenzie, R. C. (1954) Mineralogy of kaolin clays from Pugee, Tanganyika: American Mineralogist, v. 39, pp. 118138.Google Scholar
Ross, C. S., and Kerr, P. F. (1930) The kaolin minerals: U.S. Geological Survey Professional Paper 156, pp. 151180.Google Scholar
Smith, R. W. (1929) Sedimentary kaolins of the coastal plain of Georgia: Georgia Geological Survey Bulletin 44.Google Scholar
Veatch, O. (1909) Second report on the clay deposits of Georgia: Georgia Geological Survey Bulletin 18.Google Scholar