Comparison of Rock Correction Methods for Compaction of Clayey Soils
Publication: Journal of Geotechnical Engineering
Volume 119, Issue 4
Abstract
The effect of varying percentages of large aggregate on the maximum dry density and optimum water content of clay is investigated through a series of laboratory compaction tests. Rock content (material retained on the No. 4 sieve) was varied from 0% to about 60% in the laboratory tests. The compaction tests are performed primarily using ASTM D698 method D, with replacement for oversized aggregate, i.e., the “scalp‐and‐replace” method. The maximum dry density obtained from ASTM D698 method D is compared with the maximum dry density estimated from rock correction equations in ASTM method 4718, U.S. Bureau of Reclamation method 5515‐89, and American Association of State Highway and Transportation Officials procedure T224. The optimum water content obtained from ASTM D698 method D is compared to the estimated optimum water content obtained from rock correction equations in ASTM method 4718. The data presented in this paper show that when soil fines are clayey, very significant differences in maximum dry density are obtained using scalp‐and‐replace procedures compared with the rock correction equations. The potential impact of these differences on construction compaction control are addressed.
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References
1.
Donaghe, R. T., and Townsend, F. C. (1976). “Sealing and replacement effects on the compaction characteristics of earth‐rock mixtures.” Soil specimen preparation for laboratory testing (ASTM STP 599), Am. Soc. for Testing and Mater., Philadelphia, Pa., 348–377.
2.
Peters, R. J. (1965). “Rock correction in compaction control.” Proc. 14th Annual Arizona Conf. on Roads and Streets, University of Arizona, 28–37.
3.
Holtz, W. G., and Lowitz, C. A. (1957). “Compaction characteristics of gravelly soils.” Earth Laboratory Report No. 509, U.S. Bureau of Reclamation, Denver, Colo., Sep.
4.
Houston, S. L., and Vann, J. D. (1987). “Methods of evaluating the expansion potential of compacted soils with significant fractions of large aggregate.” Geotech. Testing J., 10(2), 59–70.
5.
“Procedure for performing laboratory compaction of soils containing gravel.” (1990). Method USBR 5515‐89, U.S. Dept. of the Interior, Bureau of Reclamation, Denver, Colo.
6.
“Soil and rock, building stones; geotextiles.” (1989). ASTM Standards Vol. 408, ASTM, Philadelphia, Pa., 871–873.
7.
Standard specifications for transportation materials and methods of sampling and testing, Part II. (1982). Am. Assoc. of State Highway and Transp. Officials. Washington, D.C., Jul.
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Copyright © 1993 American Society of Civil Engineers.
History
Received: Mar 8, 1991
Published online: Apr 1, 1993
Published in print: Apr 1993
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