교란효과와 배수저항을 고려한 연직 배수재 설계

Design of Vertical Drain in Consideration of Smear Effect and Well Resistance

  • Published : 2000.08.01

Abstract

This study compared the degree of consolidation by hyperbolic, curve fitting , Asaoka's and methods using values measured with a theoretical curve in consideration of smear effect and well resistance. The degree of consolidation by the Hyperboilc method was underestimated than the degree of consolidation by Curve fitting. Asaoka's , and Monden's methods. The typical range of the coefficient of horizontal consolidation was Ch=(2-3)Cv in the case considering smear effect and well resistance, and Ch =(0.5-2.1) Cv in the case disregarding smear effect and well resistance. The degree of consolidation obtained by ground settlement monitoring was nearly the same value when the coefficient of smear zone permeability by back analysis was shown to be half that of in-situ and the diameter of the smear zone was shown to be double that of mandrel. By increasing the diameter reduction ratio of the drain, the time of consolidation was delayed. The effect of well resistance showed that the case of a small coefficient of permeability was much more than in the case of a large coefficient of permeability . It was recommended that when designing diameter reduction of a drain, well resistance should be considered.

Keywords

References

  1. 한국지반공학회지 v.10 no.3 교란효과를 고려한 샌드드레인의 약실설계 유영삼;김병일;정충기;김병모
  2. 한국농공학회 학술발표회 발표논문집 연직드레인 공법에 의한 연약지반의 압밀거동 이달원;강예묵
  3. 국내 연약 점성토 지반의 성토 재하시 변형 특성 분석 조성민
  4. 연약지반의 처리공법과 침하계축에 관한 연구 한국토지공사
  5. GEOTECH v.92 Consolidation of Clay by Band-shaped Prefabricated Drains Hansbo, S.
  6. Proceedings of the 10th international Conference on Soil Mechanics and Foundation Engineering, Stockholm, Sweden v.3 Consolidation of Fine-Grained Soils by Prefabricated Drains Hansbo, S.
  7. Geotechnique v.41 no.1 An Analytical Study of the Cone Penetration Test in Clay Houlsby, G. T.;Teh, C. I.
  8. Proceedings of the 10th International Conference on Soil Mechanics and Foundation Engineering, Stockholm v.4 Consolidation by Vertical Drain Uncertainties involved in Prediction of Settlement Rates, Panel Discussion Jamiokowski, M.;lancellotta, R.
  9. Foundation Engineering Leonard, G. A.
  10. Journal of Geotechnical Engineering, ASCE v.112 no.7 Pore Pressure Dissipation after Cone Penetration I :Prediction Levadox, J. M.;Baligh, M. M.
  11. Soils and Foundations, JSSMFE v.33 no.4 Modelling and Study of Smear zones around Band Drains Madhav, M. R.;Rark, Y. M.;Miura, N.
  12. Soils and Foundations, JSSMFE v.28 no.3 Consolidation of multilayered anisotropis soils by vertical drains with well Resistance Onoue, A.
  13. Soils and Foundations, JSSMFE v.28 no.4 Consolidation by Vertical Drains taking well Resistance and Smear into Consolidation Onoue, A.