Effect of Sampling Disturbance on Properties of Singapore Clay
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Abstract
This paper examines results from triaxial unconfined compression tests and undrained compression tests on reconsolidated samples of a Singapore marine clay retrieved using two sampling methods that offer differing quality of samples. Both local internal strain measurements using a Hall-effect transducer and external strain measurements using LVDTs were employed in the triaxial tests. Bender elements were embedded in some of the samples to establish the maximum shear modulus. If the samples are not reconsolidated, the shear strength and stiffness determined from triaxial tests are found to be sensitive to the quality of the samples, and generally lower than that determined by in situ tests. However, if the samples are subjected to isotropic or consolidation to the estimated in situ condition, there is little difference between the shear strengths of samples retrieved using different samplers, and also consistent with results from vane shear tests. However, for the maximum shear modulus, even with reconsolidation, there is still a 10% difference between the results from samples retrieved using different samplers. Further, the laboratory determined maximum shear moduli are about 10% lower than the value determined in an in situ seismic cone test.
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References
ASTM D1587. (1994). Standard methods for thin-walled tube sampling of soils, American Society for Testing and Materials, Philadelphia.
Atkinson, J. H., and Stallebrass, S. E. (1991). “Model of recent stress history and nonlinearity in the stress–strain behavior of overconsolidated soil.” Proc., 7th Int. Conf. of Computer Methods Advance Geomechanics, Beer, Booker, and Carter, eds., 1, 555–560.
Baligh, M. M., Azzouz, A. S., and Chin, C. T.(1987). “Disturbances due to ‘ideal’ tube sampling.” J. Geotech. Eng., 113(7), 739–757.
Bozozuk, M. (1971). “Effect of sampling, size, and storage on test results for marine clay.” Sampling of soil and rock, ASTM STP 483, American Society for Testing and Materials, Philadelphia, 121–131.
Chen, Y. J., and Kulhawy, F. H.(1993). “Undrained strength interrelationships among CIUC UU, and UC tests.” J. Geotech. Eng., 119(11), 1732–1750.
Clayton, C. R. I., Khatrust, S. A., Bica, A. V. D., and Siddique, A.(1989). “Use of Hall-effect semiconductors in geotechnical instrumentation.” Geotech. Test. J., 12(1), 69–76.
Clayton, C. R. I., Hight, D. W., and Hopper, R. J.(1992). “Progressive destructuring of Bothkennar clay: Implications for sampling and reconsolidation procedures.” Geotechnique, 42(2), 219–239.
Clayton, C. R. I., Matthews, M. C. and Simons, N. E. (1995). Site investigation, Blackwell, London.
Clayton, C. R. I., Siddique, A., and Hopper, R. J.(1998). “Effect of sampler design on tube sampling disturbance—Numerical and analytical investigations.” Geotechnique, 48(6), 847–867.
Dasari, G. R. (1996). “Modeling the variation of soil stiffness during sequential construction.” PhD thesis, Cambridge Univ., U.K.
Davis, E. H., and Poulus, H. G. (1971). “Laboratory investigation of the effect of sampling.” Trans., Inst. of Engineers, Australia, GE.9, No. 1, 86–94.
Dyvik, R., and Madshus, C. (1985). “Laboratory measurements of using Bender elements. Advances in the art of testing soils under cyclic conditions.” Proc., ASCE Convention, Detroit, Mich., 186–196.
Graham, J., Kwok, C. K., and Ambrosie, R. W.(1987). “Stress release, undrained storage, and reconsolidation in simulated underwater clay.” Can. Geotech. J., 24, 279–288.
Hardin, B. O., and Black, W. L.(1968). “Vibration modulus of normally consolidated clay.” J. Soil Mech. Found. Div., Am. Soc. Civ. Eng., 94(2), 353–369.
Head, K. H. (1986), Manual of soil laboratory testing, Pentech, London, 3.
Hight, D. W. (1985). “Evaluation of geotechnical parameters from triaxial tests on offshore clay.” Offshore Site Investigation–Advances in Underwater technology and Offshore Engineering, 3, 253–268.
Japanese Society of Soil Mechanics and Foundation Engineering (JSSMFE). (1977). Japanese sampling manual, Japanese Committee of Soil Sampling (in Japanese).
Jardine, R. J., Symes, N. J., and Burland, J. B.(1984). “Measurement of soil stiffness in triaxial apparatus.” Geotechnique, 34(3), 323–340.
Jardine, R. J., Fourie, A., Maswoswe, J. and Burland, J. B. (1985). “Field and laboratory measurements of soil stiffness.” Proc., 11th Int. Conf. on Soil Mechanics and Foundation Engineering, 2, 511–514.
Jardine, R. J. John, St., Hight, H. W. and Potts, D. M. (1991). “Some practical applications of a nonlinear ground model.” Proc., 10th European Conf. Soil Mechanics and Foundation Engineering, Florence, 1, 223–228.
Jardine, R. J.(1992). “Some observations on the kinematic nature of soil stiffness.” Soils Found., 32(2), 111–124.
Kirkpatrick, W. M., and Younger, J. S.(1970). “Strain conditions in a compression cylinder.” J. Soil Mech. Found. Div., Am. Soc. Civ. Engineering, 96(5), 1683–1695.
Kirkpatrick, W. M., and Khan, A. J.(1984). “Reaction of clays to sampling stress relief.” Geotechnique, 34(1), 29–42.
Milovic, D. M. (1971). “Effect of sampling on some soil characteristics.” Sampling of soil and rock, ASTM STP 483, American Society for Testing and Materials, Philadelphia, 164–179.
Rowe, P. W., and Barden, L.(1964). “Importance of Free Ends in Triaxial Testing.” J. Soil Mech. Found. Div., Am. Soc. Civ. Eng., 90(1), 1–27.
Tanaka, H., Sharma, P., Tsuchida, T., and Tanaka, M.(1996). “Comparison study on sample quality using several types of samplers.” Soils Found., 36(2), 57–68.
Tatsuoka, F., Sato, T., Park, C. S., Kim, Y. S., Makubi, J. N., and Kohata, Y.(1994). “Measurements of elastic properties of geomaterials in laboratory compression test.” Geotech. Test. J., 17(1), 80–94.
Viggiani, G., and Atkinson, J. H.(1995). “Interpretation of bender element tests.” Geotechnique, 45(1), 149–154.
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Copyright © 2002 American Society of Civil Engineers.
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Received: May 8, 2000
Accepted: Feb 6, 2002
Published online: Oct 15, 2002
Published in print: Nov 2002
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