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Journal of the Korean Society of Civil Engineers

Journal of the Korean Society of Civil Engineers

ISO Journal TitleKSCE J. Civ. Environ. Eng. Res.
  • Open Access, Bi-monthly

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  3. 2013-11 (v.33 n.6)
  4. 10.12652/Ksce.2013.33.6.2359
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1 
Abu-Farsakh, M. Y., Zhang, Z., Tumay, M. T. and Morvant, M. (2008). “Computerized cone penetration test for soil classification: Development of MS-Windows Software.” Journal of the Transportation Research Board, TRR 2053, National Research Council, Washington, D.C., pp. 47-64.Abu-Farsakh, M. Y., Zhang, Z., Tumay, M. T. and Morvant, M. (2008). “Computerized cone penetration test for soil classification: Development of MS-Windows Software.” Journal of the Transportation Research Board, TRR 2053, National Research Council, Washington, D.C., pp. 47-64.Google Search
2 
Hird, C. C., Johnson, P. and Sills, G. C. (2003). “Performance of miniature piezocones in thinly layered soils.” Geotechnique, Vol. 53, No. 10, pp. 885-900.10.1680/geot.2003.53.10.885Hird, C. C., Johnson, P. and Sills, G. C. (2003). “Performance of miniature piezocones in thinly layered soils.” Geotechnique, Vol. 53, No. 10, pp. 885-900.DOI
3 
Kim, R., Cho, Y., Yoon, S. and Lee, W. (2008). “Effect of the cone’s size on the tip resistance of sandy soil.” Proc. of the 34th KSCE Conference 2008, pp. 3897-3901 (in Korean).Kim, R., Cho, Y., Yoon, S. and Lee, W. (2008). “Effect of the cone’s size on the tip resistance of sandy soil.” Proc. of the 34th KSCE Conference 2008, pp. 3897-3901 (in Korean).Google Search
4 
Kurup, P. U. and Tumay, M. T. (1998). “Calibration of a miniature cone penetrometer for highway applications.” Transportation Research Record, No. 1614, pp. 8-14.10.3141/1614-02Kurup, P. U. and Tumay, M. T. (1998). “Calibration of a miniature cone penetrometer for highway applications.” Transportation Research Record, No. 1614, pp. 8-14.DOI
5 
Kurup, P. U. and Tumay, M. T. (1999). “Continuous intrusion miniature cone penetration test system for transportation applications.” Transportation Research Record, No. 1652, pp. 228-235.10.3141/1652-29Kurup, P. U. and Tumay, M. T. (1999). “Continuous intrusion miniature cone penetration test system for transportation applications.” Transportation Research Record, No. 1652, pp. 228-235.DOI
6 
Lima, D. C. and Tumay, M. T. (1991). “Scale effects in cone penetration tests.” Proc. of the Geotechnical Engineering Congress 1991, ASCE, Boulder, CO, Vol. 1, pp. 38-51.Lima, D. C. and Tumay, M. T. (1991). “Scale effects in cone penetration tests.” Proc. of the Geotechnical Engineering Congress 1991, ASCE, Boulder, CO, Vol. 1, pp. 38-51.Google Search
7 
Lunne, T., Robertson, P. K. and Powell J. J. M. (1997). Cone penetration testing in geotechnical practice, Chapman & Hall, London.Lunne, T., Robertson, P. K. and Powell J. J. M. (1997). Cone penetration testing in geotechnical practice, Chapman & Hall, London.Google Search
8 
Powell, J. J. M. and Quarterman, R. S. T. (1988). “Interpretation of cone penetration tests in clays, with particular reference to rate effects.” Proc. of the First International Symposium on Penetration, Orlando, FL, Vol. 2, pp. 903-910.Powell, J. J. M. and Quarterman, R. S. T. (1988). “Interpretation of cone penetration tests in clays, with particular reference to rate effects.” Proc. of the First International Symposium on Penetration, Orlando, FL, Vol. 2, pp. 903-910.Google Search
9 
Robertson, P. K. and Campanella, R. G. (1988). Guidelines for Geotechnical Design Using CPT and CPTU, University of British Columbia, Vancouver, Department of Civil Engineering, Soil Mechanics Series 120.Robertson, P. K. and Campanella, R. G. (1988). Guidelines for Geotechnical Design Using CPT and CPTU, University of British Columbia, Vancouver, Department of Civil Engineering, Soil Mechanics Series 120.Google Search
10 
Titi, H. H. and Morvant, M. (2001). “Implementation of miniature cone penetrometer in roadway design and construction.” Journal of the Transportation Research Board, TRR 1755, National Research Council, Washington, D.C., pp. 60-68.Titi, H. H. and Morvant, M. (2001). “Implementation of miniature cone penetrometer in roadway design and construction.” Journal of the Transportation Research Board, TRR 1755, National Research Council, Washington, D.C., pp. 60-68.Google Search
11 
Titi, H. H., Mohammad, L. N. and Tumay, M. T. (2000). “Miniature cone penetration tests in soft and stiff clays.” Geotechnical Testing Journal, Vol. 23, No. 4, pp. 432-443.10.1520/GTJ11064JTiti, H. H., Mohammad, L. N. and Tumay, M. T. (2000). “Miniature cone penetration tests in soft and stiff clays.” Geotechnical Testing Journal, Vol. 23, No. 4, pp. 432-443.DOI
12 
Tumay, M. T. and Kurup, P. U. (1997). Calibration and implementation of miniature electronic cone penetrometers for road and highway design and construction, Louisiana Transportation Research Center, Project No. 88-1GT Final Report.Tumay, M. T. and Kurup, P. U. (1997). Calibration and implementation of miniature electronic cone penetrometers for road and highway design and construction, Louisiana Transportation Research Center, Project No. 88-1GT Final Report.Google Search
13 
Tumay, M. T. and Kurup, P. U. (1999). A continuous intrusion miniature cone penetration test system for transportation applications, Louisiana Transportation Research Center, Project No. 96-3GTX Final Report.Tumay, M. T. and Kurup, P. U. (1999). A continuous intrusion miniature cone penetration test system for transportation applications, Louisiana Transportation Research Center, Project No. 96-3GTX Final Report.Google Search
14 
Tumay, M. T. and Kurup, P. U. (2001). “Development of a continuous intrusion miniature cone penetration test system for subsurface explorations.” Soils and Foundations, Vol. 41, No. 6, pp. 129-138.10.3208/sandf.41.6_129Tumay, M. T. and Kurup, P. U. (2001). “Development of a continuous intrusion miniature cone penetration test system for subsurface explorations.” Soils and Foundations, Vol. 41, No. 6, pp. 129-138.DOI
15 
Yoon, G. and Lee, K. (2004). Applications of cone penetration test for geotechnical design, Goomibook (in Korean).Yoon, G. and Lee, K. (2004). Applications of cone penetration test for geotechnical design, Goomibook (in Korean).Google Search
16 
Yoon, S. (2009). “Miniature cone penetration tests for detecting the depth of a clay layer.” Proc. of the 35th KSCE Conference 2009, pp. 1930-1933 (in Korean).Yoon, S. (2009). “Miniature cone penetration tests for detecting the depth of a clay layer.” Proc. of the 35th KSCE Conference 2009, pp. 1930-1933 (in Korean).Google Search
17 
Yoon, S., Hwang, D., Kim, J. and Ji, W. (2010). “Case studies on the field application of miniature CPT’s in South Korea.” Proc. of the KGS Fall National Conference 2010, pp. 269-280 (in Korean).Yoon, S., Hwang, D., Kim, J. and Ji, W. (2010). “Case studies on the field application of miniature CPT’s in South Korea.” Proc. of the KGS Fall National Conference 2010, pp. 269-280 (in Korean).Google Search
18 
Yoon, S., Ji, W., Kim, J. and Kim, R. (2009). “The field application of miniature cone penetration test system in Korea.” Proc. of the KGS Spring National Conference 2009, pp. 349-360 (in Korean).Yoon, S., Ji, W., Kim, J. and Kim, R. (2009). “The field application of miniature cone penetration test system in Korea.” Proc. of the KGS Spring National Conference 2009, pp. 349-360 (in Korean).Google Search
19 
Zhang, Z. and Tumay, M. T. (1999). “Statistical to fuzzy approach toward CPT soil classification.” Journal of Geotechnical and Geoenvironmental Engineering, Vol. 125, No. 3, pp. 179-186.10.1061/(ASCE)1090-0241(1999)125:3(179)Zhang, Z. and Tumay, M. T. (1999). “Statistical to fuzzy approach toward CPT soil classification.” Journal of Geotechnical and Geoenvironmental Engineering, Vol. 125, No. 3, pp. 179-186.DOI