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International Journal of Geotechnical Engineering Volume 4, 2010 - Issue 1
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Original

Soil nails field pullout testing: evaluation and applications

G. Babu
&
Vikas Singh
Pages 13-21 | Published online: 04 Sep 2013

References

  • CEN. (2000 ). “Soil nailing—working draft 9.” CEN Technical Committee 288 http://www.personal.dundee.ac.uk/~amcjones/cen/wd9/contents.htm. (9th Aug.).
  • Chai, X. J. and Hayashi, S. (2005). “Effect of constrained dilatancy on pullout resistance of nails in sandy clay.” Groun. Improv., 9(3), 127–135.
  • Chowdhury, R. N. and Xu, D. W. (1992). “Reliability index for slope stability assessment – two methods compared.” Reliab. Eng. Syst. Safety, 37(2), 99–108.
  • Chu, L.-M. and Yin, J. - H. (2005). “Comparison of interface shear strength of soil nails measured by both direct shear box tests and pullout tests.” J. Geotech. Geoenviron. Eng., 131(9), 1097–1107.
  • Chu, L.-M. and Yin, J.-H. (2005). “A laboratory device to test the pullout behavior of soil nails.” Geotech. Test. J., 28(5), 1–15.
  • Duncan, J. M. (2000). “Factors of safety and reliability in geotechnical engineering.” J. Geotech. Geoenviron. Eng., 126(4), 307–316.
  • FHWA. (2003). “Geotechnical engineering circular No. 7 — soil nail walls.” Report FHWA0-IF-03–017, U. S. Department of Transportation, Federal Highway Administration, Washington D. C.
  • Geotechnical Engineering Office (GEO). (2007 ). “Good practice in design of steel soil nails for soil cut slopes.” GEO Technical Guidance Note No. 23 (Revision B), Civil Engineering and Development Dept., The Government of the Hong Kong Special Administrative Region, Hong Kong.
  • Hasofer, A. M. and Lind, N. C. (1974). “Exact and invariant second moment code format.” J. Eng. Mechan., 100(1), 111–121.
  • Junaideen, S .M., Tham, L. G., Law, K. T., Lee, C. F. and Yue, Z. Q. (2004). “Laboratory study of soil-nail interaction in loose completely decomposed granite.” Can. Geotech. J, 41, 224–286.
  • Low, B. K. (2005). “Reliability-based design applied to retaining walls.” Geotechnique, 55(1), 63–75.
  • Luo, S. Q., Tan, S. A. and Yong, K. Y. (2000). “Pullout resistance mechanism of a soil nailed reinforcement in dilative soils.” Soils Found., 40(1), 47–56.
  • Luo, S. Q., Tan, S. A., Cheang, W. and Yong, K. Y. (2002). “Elastoplastic analysis of pull-out resistance of soil nails in dilatant soils.” Groun. Improv., 6(4), 153–161.
  • Milligan, G. W. E. and Tei, K. (1998). “The pullout resistance of model soil nails.” Soils Found., 38(2), 179–190.
  • Misra, A., Roberts, L. A., Oberoi, R. and Chen, C.-H. (2007). “Uncertainty analysis of micropile pullout based upon load test results.” J. Geotech. Geoenviron. Eng., 133(8), 1017–1025.
  • Murthy, B. R. S., Sivakumar Babu, G. L. and Srinivas, A. (2002). “Analysis of prototype soil nailed retaining wall.” Groun. Improv., 6(3), 129–136.
  • National Cooperative Highway Research Program. NCHRP. (2008 ). “Seismic analysis and design of retaining walls, buried structures, slopes and embankments – recommended specifications, commentaries and example problems. ” Draft Final Report Vol. 2 Project 12–70, Washington D. C.
  • Phoon, K. K. and Kulhawy, F. H. (1999). “Characterization of geotechnical variability.” Can. Geotech. J., 36(4), 612–624.
  • Porterfield, J. A., Cotton, D.M., and Byrne, R.J. (1994). “Soil nailing field inspectors manual, Project Demonstration 103,” Publication No. FHWA-SA-93–068, Federal Highway Administration, Washington, D.C.
  • Pradhan, B., Tham, L. G., Yue, Z. Q., Junaideen, S. M. and Lee, C. F. (2006). “Soil-nail pullout interaction in loose fill materials.” Int. J. Geomech., 6(4), 238 – 247.
  • Sivakumar Babu, G. L. and Singh, V.P. (2009 ). Reliability analysis of soil nail walls. Georisk: Assessment and Management of Risk for Engg. Syst. and Geohaz., 3(1), 44–54.
  • Su, L.-J., Chan, T. C. F., Yin, J. – H. Shiu, Y. K. and Chiu, S. L. (2008). “Influence of overburden pressure on soil nail pullout resistance in a compacted fill.” J. Geotech. Geoenviron. Eng., 134(9), 1339–1347.
  • Vermeer, P. A. (1990 ). ‘‘The orientation of shear bands in biaxial tests.’’ Geotechnique, 40(2), 223–236.
  • Wang, Z. and Richwien, W. (2002). “A study of soil-rein- forcement interface friction.” J. Geotech. Geoenviron. Eng., 128(1), 92–94.
  • Wong, I. H., Low, B. K., Pang, P. Y. and Raju, G. V. R. (1997). “Field performance of nailed soil wall in residual soil.” J. Perform. Construc. Facili., 11(3), 105–112.

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