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REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS

Yıl 2015, , 131 - 144, 30.06.2015
https://doi.org/10.19111/bmre.85667

Öz

Liquid limit (LL) and plastic limit (PL) are the two most commonly used index proper- ties of fine-grained soils. They have been used in not only classification of soils but also in correlation with certain engineering properties. Therefore, they have been subjected to numerous researches since they were first introduced by Atterberg in 1911. While their me- chanisms were well defined in many codes and they have been in use for decades, criticisms often arose pertinent to the uncertainties inherent to them. Incredible amount of effort has been exerted to invent more rational testing methods in place of both the Casagrande’s cup and bead rolling methods. Part of those efforts has been on devicing a single tool to measure the two relative index properties together. Recently, the reverse extrusion test was brought into the use of geotechnical engineers. It was shown that this tool has a potential of measu- ring LL, PL, and even the shrinkage limit (SL). The aim of this investigation is to reassess the ability of the reverse extrusion test to determine LL and PL with further refinement. In this regard 70 fine-grained soils covering a large range of plasticity were employed. Fall-cone method and rolling-device method were employed to determine LL and PL, res- pectively. The reverse extrusion tests were carried out at least five different water contents per soil sample. Extrusion pressures were plotted against water content and a curve fitting was applied to data pairs, from which the y-intercept (the coefficient a) and the slope (the coefficieent b) of the curve were determined. Those reverse extrusion coefficients were utilized to determine the representative extrusion pressures corresponding to LL and PL, as was done by the earlier researchers; however, the degree of success for the prediction of LL and PL using the representative extrusion pressures was not encouraging. Different from the previously proposed approaches, the reverse extrusion coefficients (i.e., a and b) were subjected to a multiple regression analysis along with the results of the conventional testing methods of fall-cone and rolling-device to determine the LL and PL as functions of the reverse extrusion parameters. It was shown that LL and PL can be predicted with a great degree of success using the reverse extrusion coefficients. While a great majority of the liquid limits found by using the fall-cone method were predicted with a ±10% error, almost all of the plastic limits found by the rolling device were predicted with a ±10% error. This refined investigation on the reverse extrusion test confirmed and proved that the reverse extrusion test is a simple, robust and inexpensive method capable of predicting both of two fundamental consistency limits using a single device.

Kaynakça

  • American Society for Testing Materials, 2010. Standard test methods for liquid limit, plastic limit, and plasticity index of soils: ASTM D4318-10, West Conshohocken, PA.
  • Belviso, R., Ciampoli, S., Cotecchia, V., and Federico, A., 1985. Use of the cone penetrometer to determine consistency limits. Ground Engineering, 18(5), 21-22.
  • BSI, 1990. Methods of test for civil engineering purposes classification tets (BS1377-2): British Standard Institution (BSI), London, UK.
  • CAN/BNQ, 1986. Soils – determination of liquid limit by the Swedish fall-cone penetrometer method and determination of plastic limit: CAN/BNQ 2501-092- M-86, Canadian Standards Asspciation and Bureau de Normalization du Quebec, Rexdale, Ont.
  • Casagrande, A, 1932. Research on the Atterberg limits of soils: Public Roads, 13, 3, 121-130.
  • Casagrande, A, 1958. Notes on the design of liquid limit device: Geotechnique, 8, 2, 84-91.
  • Clayton, C. R. I., Matthews, M. C. and Simons, N. E., 1995, Site investigation: Blackwell Science, 584 p.
  • Dolinar, B., 2010. Predicting the normalized, undrained shear strength of saturated fine-grained soils using plasticity-value correlations: Applied Clay Science, 47, 428-432.
  • Haigh, S. K., 2012. Mechanics of the Casagrande liquid limit test: Canadian Geotechnical Journal, 49, 1015-1023.
  • ISI, 1985. Determination of liquid and plastic limits (2270)I In Indian Standard Method of Test for Soils, Part 5, Indian Standards Institution (ISI), New Delhi, India.
  • Johnston, M. M., Strom, W. E. Jr., 1968. Results of second division laboratory testing program on standard soil samples: Misc. Paper, 3-978, U.S. army Engineer Waterways Experiment Station, Vicksburg, MS.
  • Kayabalı, K., 2012. An alternative testing tool for plastic limit: Electronic Journal of Geotechnical Engineering 17(O), 2107-2114.
  • Kayabalı, K., Tüfenkçi, O. O., 2007. A different perspectıve for the determination of soil consistence limits: International Symposium on Geotechnical Engineering, Ground Improvement and Geosynthetics for Human Security and Environmental Preservation, Bangkok, Thailand, 423-432.
  • Kayabalı K., Tüfenkçi, O. O., 2010. Determination of plastic and liquid limits using the reverse extrusion technique: Geotechnical Testing Journal 33(1), 14- 22.
  • Lee, L. T., Freeman, R. B., 2007. An alternative test method for assessing consistency limits. Geotechnical Testing Journal, 30(4), 1-8.
  • Medhat, F., Whyte, I. L., 1986. An appraisal of soil index tests. Geological Society, Engineering Geology Special Publication 2, 317-323.
  • Prakash, K., Sridharan, A., 2006. Critical appraisal of the cone penetration method of determining soil plasticity. Can. Geotech. J. 43, 884-888.
  • Sherwood, P. T., 1970. The reproducibility of the results of soil classification and compaction tests: Report LR 339, Crowthorne, Road Research Laboratory. Sherwood, P. T., Ryley, M. D., 1970. An investigation of a cone-penetrometer method for the determination of the liquid limit. Geotechnique, 20, 2, 203-208.
  • Sivakumar, V., Glynn, D., Cairns, P., Black, J. A., 2009. A new method of measuring plastic limit of fine materials. Geotechnique, 59, 10, 813-823.
  • Timar, A., 1974. Testing the plastic properties of cohesive and intermediate-type soils by extrusion. Acta Tech. Ac. Sci. Hungary 76 (3-4), 355-370.
  • Wasti, Y., Bezirci, M. H., 1986. Determination of the consistency limits of soils by the fall-cone test. Canadian Geotechnical Journal 23, 241-246.
  • Whyte, I. L., 1982. Soil plasticity and strength – a new approach for using extrusion. Ground Engineering, 15(1), 16-24.
  • Wood, D. M., 1982. Cone penetrometer and liquid limits. Geotechnique, 32, 2, 152-157.
  • Wroth, C. P., Wood, D. M., 1978. The correlation of index properties with some basic engineering properties of soils. Canadian Geotechnical Journal 15(2), 137- 145.
Yıl 2015, , 131 - 144, 30.06.2015
https://doi.org/10.19111/bmre.85667

Öz


Kaynakça

  • American Society for Testing Materials, 2010. Standard test methods for liquid limit, plastic limit, and plasticity index of soils: ASTM D4318-10, West Conshohocken, PA.
  • Belviso, R., Ciampoli, S., Cotecchia, V., and Federico, A., 1985. Use of the cone penetrometer to determine consistency limits. Ground Engineering, 18(5), 21-22.
  • BSI, 1990. Methods of test for civil engineering purposes classification tets (BS1377-2): British Standard Institution (BSI), London, UK.
  • CAN/BNQ, 1986. Soils – determination of liquid limit by the Swedish fall-cone penetrometer method and determination of plastic limit: CAN/BNQ 2501-092- M-86, Canadian Standards Asspciation and Bureau de Normalization du Quebec, Rexdale, Ont.
  • Casagrande, A, 1932. Research on the Atterberg limits of soils: Public Roads, 13, 3, 121-130.
  • Casagrande, A, 1958. Notes on the design of liquid limit device: Geotechnique, 8, 2, 84-91.
  • Clayton, C. R. I., Matthews, M. C. and Simons, N. E., 1995, Site investigation: Blackwell Science, 584 p.
  • Dolinar, B., 2010. Predicting the normalized, undrained shear strength of saturated fine-grained soils using plasticity-value correlations: Applied Clay Science, 47, 428-432.
  • Haigh, S. K., 2012. Mechanics of the Casagrande liquid limit test: Canadian Geotechnical Journal, 49, 1015-1023.
  • ISI, 1985. Determination of liquid and plastic limits (2270)I In Indian Standard Method of Test for Soils, Part 5, Indian Standards Institution (ISI), New Delhi, India.
  • Johnston, M. M., Strom, W. E. Jr., 1968. Results of second division laboratory testing program on standard soil samples: Misc. Paper, 3-978, U.S. army Engineer Waterways Experiment Station, Vicksburg, MS.
  • Kayabalı, K., 2012. An alternative testing tool for plastic limit: Electronic Journal of Geotechnical Engineering 17(O), 2107-2114.
  • Kayabalı, K., Tüfenkçi, O. O., 2007. A different perspectıve for the determination of soil consistence limits: International Symposium on Geotechnical Engineering, Ground Improvement and Geosynthetics for Human Security and Environmental Preservation, Bangkok, Thailand, 423-432.
  • Kayabalı K., Tüfenkçi, O. O., 2010. Determination of plastic and liquid limits using the reverse extrusion technique: Geotechnical Testing Journal 33(1), 14- 22.
  • Lee, L. T., Freeman, R. B., 2007. An alternative test method for assessing consistency limits. Geotechnical Testing Journal, 30(4), 1-8.
  • Medhat, F., Whyte, I. L., 1986. An appraisal of soil index tests. Geological Society, Engineering Geology Special Publication 2, 317-323.
  • Prakash, K., Sridharan, A., 2006. Critical appraisal of the cone penetration method of determining soil plasticity. Can. Geotech. J. 43, 884-888.
  • Sherwood, P. T., 1970. The reproducibility of the results of soil classification and compaction tests: Report LR 339, Crowthorne, Road Research Laboratory. Sherwood, P. T., Ryley, M. D., 1970. An investigation of a cone-penetrometer method for the determination of the liquid limit. Geotechnique, 20, 2, 203-208.
  • Sivakumar, V., Glynn, D., Cairns, P., Black, J. A., 2009. A new method of measuring plastic limit of fine materials. Geotechnique, 59, 10, 813-823.
  • Timar, A., 1974. Testing the plastic properties of cohesive and intermediate-type soils by extrusion. Acta Tech. Ac. Sci. Hungary 76 (3-4), 355-370.
  • Wasti, Y., Bezirci, M. H., 1986. Determination of the consistency limits of soils by the fall-cone test. Canadian Geotechnical Journal 23, 241-246.
  • Whyte, I. L., 1982. Soil plasticity and strength – a new approach for using extrusion. Ground Engineering, 15(1), 16-24.
  • Wood, D. M., 1982. Cone penetrometer and liquid limits. Geotechnique, 32, 2, 152-157.
  • Wroth, C. P., Wood, D. M., 1978. The correlation of index properties with some basic engineering properties of soils. Canadian Geotechnical Journal 15(2), 137- 145.
Toplam 24 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Kamil Kayabalı

Ayla Bulut Üstün Bu kişi benim

Ali Özkeser Bu kişi benim

Yayımlanma Tarihi 30 Haziran 2015
Yayımlandığı Sayı Yıl 2015

Kaynak Göster

APA Kayabalı, K., Bulut Üstün, A., & Özkeser, A. (2015). REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS. Bulletin of the Mineral Research and Exploration, 150(150), 131-144. https://doi.org/10.19111/bmre.85667
AMA Kayabalı K, Bulut Üstün A, Özkeser A. REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS. Bull.Min.Res.Exp. Haziran 2015;150(150):131-144. doi:10.19111/bmre.85667
Chicago Kayabalı, Kamil, Ayla Bulut Üstün, ve Ali Özkeser. “REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS”. Bulletin of the Mineral Research and Exploration 150, sy. 150 (Haziran 2015): 131-44. https://doi.org/10.19111/bmre.85667.
EndNote Kayabalı K, Bulut Üstün A, Özkeser A (01 Haziran 2015) REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS. Bulletin of the Mineral Research and Exploration 150 150 131–144.
IEEE K. Kayabalı, A. Bulut Üstün, ve A. Özkeser, “REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS”, Bull.Min.Res.Exp., c. 150, sy. 150, ss. 131–144, 2015, doi: 10.19111/bmre.85667.
ISNAD Kayabalı, Kamil vd. “REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS”. Bulletin of the Mineral Research and Exploration 150/150 (Haziran 2015), 131-144. https://doi.org/10.19111/bmre.85667.
JAMA Kayabalı K, Bulut Üstün A, Özkeser A. REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS. Bull.Min.Res.Exp. 2015;150:131–144.
MLA Kayabalı, Kamil vd. “REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS”. Bulletin of the Mineral Research and Exploration, c. 150, sy. 150, 2015, ss. 131-44, doi:10.19111/bmre.85667.
Vancouver Kayabalı K, Bulut Üstün A, Özkeser A. REFINEMENT OF THE REVERSE EXTRUSION TEST TO DETERMINE THE TWO CONSISTENCY LIMITS. Bull.Min.Res.Exp. 2015;150(150):131-44.

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