Proceedings of the Korean Geotechical Society Conference (한국지반공학회:학술대회논문집)
- 2010.03a
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- Pages.495-508
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- 2010
Non-linear Finite Strain Consolidation of Ultra-soft Soil Formation Considering Radial Self-weight Consolidation
방사방향 자중압밀을 고려한 초연약 지반의 비선형 유한변형 압밀거동 분석
- An, Yong-Hoon (Kunhwa Consulting & Engineering Co., Ltd.) ;
- Kwak, Tae-Hoon (School of Civil, Architectural & Environmental Engineering, Korea University) ;
- Lee, Chul-Ho (School of Civil, Architectural & Environmental Engineering, Korea University) ;
- Choi, Hang-Seok (School of Civil, Architectural & Environmental Engineering, Korea University) ;
- Choi, Eun-Seok (SD Eng.)
- 안용훈 ((주)건화) ;
- 곽태훈 (고려대학교 건축사회환경공학부) ;
- 이철호 (고려대학교 건축사회환경공학부) ;
- 최항석 (고려대학교 건축사회환경공학부) ;
- 최은석 ((주)에스디이엔지)
- Published : 2010.03.25
Abstract
Vertical drains are commonly used to accelerate the consolidation process of soft soils, such as dredged materials. The installation of vertical drain provides a radial drainage path to water in the deposit soil in addition to the vertical direction. An estimation of time rate of settlement is considerably complicated when vertical drains are installed to enhance consolidation process of dredged material because the vertical drains are commonly installed before self-weight consolidation is ceased. In this paper, the vertical drain theory developed by Barron(1948) is applied to analyze the non-linear consolidation behavior considering radial drainage. The overall average degree of self-weight consolidation of the dredged soil under the condition that the water is drained in both radial and vertical directions is estimated using the Carillo(1942) formula. In addition, the Morris(2002) theory and the one-dimensional non-linear finite strain numerical model, PSDDF, are applied to analyze the self-weight consolidation in case of only the vertical drainage is considered. The new analysis approach proposed herein can simulate properly the time rate of the self-weight consolidation of dredged materials that is facilitated with vertical drains.