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Density and Compressibility of Wyoming Bentonite Particles

Published online by Cambridge University Press:  02 April 2024

George D. Brunton*
Affiliation:
Department of Geology and Geological Engineering, University of Mississippi, University, Mississippi 38677
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Abstract

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Type
Note
Copyright
Copyright © 1988, The Clay Minerals Society

References

de Wit, C. T., Arens, P. L., Van Baren, F. A., Doeksen, J., Domingo, W. R., Favejee, J Ch L Hardon, H. J., Mulder, E. G., Peerlkamp, P. K., Schuffelen, A. C., Vermaat, J. G., Visser, W. C., Zuur, A. J. and Schuurman, J. J., 1950 Moisture content and density of some clay minerals and some remarks on the hydration pattern of clay Trans. 4th Inter. Congr. Soil Sci. The Netherlands Hoitsema, Groningen 5962.Google Scholar
Greenspan, M. and Tschiegg, C. E., 1957 Speed of sound in water by a direct method J. Research Natl. Bur. Stan. 59C 249251.CrossRefGoogle Scholar
Grim, R. E., 1968 Clay Mineralogy 2 New York McGraw-Hill.Google Scholar
Lovett, J. B., 1969 Comments concerning the determination of absolute sound speeds in distilled and seawater and Pacific sofar speeds J. Acoust. Soc. Amer. 45 10511057.CrossRefGoogle Scholar
Urick, R.J., 1947 A sound velocity method for determining the compressibility of finely divided substances J. Applied Phys. 18 983987.CrossRefGoogle Scholar
Weaver, C. E. and Pollard, L. D., 1973 The Chemistry of Clay Minerals New York Elsevier.Google Scholar