한국농공학회지 (Magazine of the Korean Society of Agricultural Engineers)

한국농공학회 (The Korean Society of Agricultural Engineers)
권호 표지

연약지반 장기 침하량 예측기법의 신뢰성 평가

Reliability of Ultimate Settlement Prediction Methods

  • 발행 : 1996.12.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

The theory of consolidation has been achieved remarkable development in terms of theory such as finite consolidation theory, two dimensional Rendulic consolidation theory. Though those theories are well defined, the analysis is by no means straightforward, because associated properties are very difficult to determine in the laboratory, Therefore Terzaghi's one dimensional consolidation theory and Barron's cylindrical consolidation theory are still widely used in engineering practice. The theoretical shortcomings of those consolidation theories and uncertainties of associated properties make inevitably some discrepancy between theoretical and field settlements. Field settlement measurement by settlement plate is, therefore, widely used to overcome the discrepancy. Ultimate settlement is one of the most important factor of embankment construction on soft soils. Nowadays the ultimate settlement prediction methods using field settlement data are widely accepted as a helpful tool for field settlement analysis of embankment construction on soft soils. Among the various methods of ultimate settlement prediction, hyperbolic method and Asaoka's method are most commonly used because of their simplicity and ability to give a reasonable estimate of consolidation settlement. In this paper, the reliability of hyperbolic method and Asaoka's method has been examined using analytical methods. It is shown that both hyperbolic method and Asaoka's method are significantly affected by the direction of drainage.

키워드

참고문헌

  1. Soils and Foundations v.18 no.4 Observational procedure of settlement prediction Asaoka,A.
  2. Soils and Foundations v.20 no.4 An inverse problem approach to settlement prodiction Asaoka,A.;Matsuo,M.
  3. Prediction versus Performance in Geotechnical Engineering, Settlement Prediction at Muar Flats using Asaoka's method Baker,S.A.;Balasubramaniam(et al)(eds.)
  4. Trans. ASCE v.113 Consolidation of fine grained soils by vertical wells Barron,R.A.
  5. Developments in Geotechnical Engineering v.20 Soft Clay Engineering Brand,E.W.;Brenner,R.P.
  6. J. Soil Mech. and Found. Engrg. v.96 no.5 Nonlinear analysis of stress and strain in soils Duncan,J.M.;Chang,C.Y.
  7. Geotechnique v.17 no.3 The theory of one dimensional consolidatin of saturated clays. 1 : Finite non-linear consolidation of thin homogeneous layers Gibson,R.E.;England,G.L.;Hussey,M.J.L.
  8. Bull. Liais. Lab. Ponts Chauss. no.199 Analyse graphique des tassements observs sous les ouvrages Magnan,J.P.;Deroy,J.M.
  9. Bull. Liais. Lab. Ponts Chauss. no.106 Les remblais d'essain : Un outil efficace pour am liorer les projects d'ouvrages sur sols compressibles Magnan,J.P.;Mlieussens,C.
  10. The Consolidation of Soft Clay-A New Consolidation Theory and Its Application Micasa,M.
  11. Principles of soil mechanics Scott,R.F.
  12. Compression and Consolidation of Clayey Soils The hyperbolic method dor prediction of ultimate primary settlement in clays with vertical drain Tan,S.A.;Yoshikuni(ed.);Kusakabe(ed.)
  13. J. of Geotech. Engrg. v.117 no.11 Hyperbolic method for consolidation analysis Tan,S.A.;Inoue,T.;Lee,S.L.
  14. 土と基礎(41-2 421) 實測値に基づく軟弱地盤の沈下豫測法の精度と適用性 世良 至;殿坦內 正 人;川井田 實
  15. 한국농공학회지 v.38 no.1 Pack-Drain으로 개량된 점토지반의 거동해석 오재화;남기현;이문수;허재은;김영남