Journal of the Korean Geotechnical Society (한국지반공학회논문집)

Korean Geotechnical Society (한국지반공학회)
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Variation of Undrained Shear Behavior with Consolidation Stress Ratio of Nakdong River Sand

압밀응력비에 따른 낙동강모래의 비배수전단거통 특성

  • 김영수 (경북대학교 토목공학과) ;
  • 정성관 (경북대학교 조경학과) ;
  • 송준혁 (㈜석탑엔지니어링 기술연구소) ;
  • 정동길 (㈜서영기술단 도시철도팀)
  • Published : 2003.08.01
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Abstract

This research, in order to study the effects of initial shear stress of anisotropically consolidated sand that has 0.558% fines, performed several undrained static and dynamic triaxial test. To simulate the real field conditions, loose and dense samples were prepared. Besides, the cyclic shear strength of Nakdong River sand under various combinations of initial static shear stress, stress path, pore water pressure and residual strength relationship was studied. By using Bolton's theory, peak internal friction angle at failure which has considerable effects on the relative density and mean effective stress was determined. In p'- q diagram, the phase transformation line moves closer to the failure line as the specimen's initial anistropical consolidation stress increases. Loose sands were more affected than dense sands. The increase of consolidation stress ratio from 1.4 to 1.8 had an effect on liquefaction resistance strength resulting from the increase of relativity density, and showed similar CSR values in dense specimen condition.

본 연구에서는 낙동강 하류 을숙도에 분포하는 0.558%의 세립분을 함유한 자연 사질토 지반에 대하여 느슨, 중간, 그리고 조밀한 지반 상태를 재현하여 초기정적전단응력의 영향을 정적 및 동적 시험을 통해 응력경로와 과잉간극수압 소산 및 잔류변형 거동을 규명하고, Bolton 이론에 의거한 파괴시 최대 유효마찰각을 상대밀도에 의한 영향과 구속압의 영향을 고려하여 제시하였다. 파괴선과 상전이점의 거리는 초기전단응력이 증가할수록 가까워지고, 느슨한 모래의 경우 그 영향이 커서 조밀한 모래의 응력경로로 접근하는 경향을 보인다. 압밀응력비 조건이 1.4에서 1.8로 변함에 따라, 상대밀도의 증가와 함께 보다 큰 액상화 저항강도를 보이고 조밀한 상대밀도 조건에서는 유사한 CSR값을 보였다.

Keywords

References

  1. Geotechnique v.36 no.1 The strength and dilatancy of sands Bolton,M.D.
  2. Proc. of the 6th World Conference on Earthquake Engineering v.2 Pore pressure buildup inintially sheared sand subjected to irregular excitation Ishihara,K.;Takatsu,H.
  3. Geotechnique no.3 Liquefaction and flow failure during earthquakes Ishihara,K.
  4. Soil Behaviour in Earthquake Geotechnics Ishihara,K.
  5. Soils and Foundations v.41 no.1 Undrained shear characteristics of saturated sand under anisotropic consolidation Kato(et al.)
  6. Journal of Geotechnical Engineering Division v.93 no.SM5 Dynamic strength of anisotropically consolidated sand Lee,K.L;Seed,H.B
  7. Journal of Geotechnical Engineering Division v.112 no.10 Undrained monotonic and cyclic triaxial strength of sand Mohamad,R.;Dobry,R.
  8. Committee on Earthquake Engineering Commission on Engineering and Technical Systems, Report No. CETS-EE-01 Liquefaction of soils during earthquakes NRC
  9. Proc. of The Royal Society London, Series A v.269 The stress-dilatancy relation for static equilibrium of an assembly of particles in contact Rowe,P.W.
  10. Journal of Geotechnical Engineering Division v.89 no.SM3 Stress-dilatancy, earth pressures and slopes Rowe,P.W.
  11. Journal of Geotechnical and Geoenvironmental Engineering v.126 no.5 Shear strength and stiffness of silty sand Salgado,R.(et al.)
  12. Soils and Foundations v.26 no.1 Strength-deformation characteristics of a soil subjected to initial shear stress Uchida,K.;Hasegawa,T.
  13. Journal of Soil Mechanics and Foundation Division v.105 no.GT10 Static shear and liquefaction potential Vaid,Y.P.;Finn,W.D.L.
  14. Soils and Foundations v.23 no.1 Effects of Static Shear on Resistance to Liquefaction Vaid,Y.P.;Chern,J.C.
  15. Report No. CANLEX 04/96 Canadian liquefaction experiment-sand characterizing for static and dynamic liquefaction Vaid,Y.P.(et al.)