论文信息 - Model for Large Strain Consolidation by Centrifuge

Model for Large Strain Consolidation by Centrifuge

A numerical model, called CC1, is presented for one-dimensional large strain consolidation in a geotechnical centrifuge. The model includes all the capabilities of a previous large strain consolidation code, CS2, written for surcharge loading under normal gravity conditions. In addition, CC1 accounts for variation of acceleration factor N over the depth of a centrifuge test specimen. The development of CC1 is first presented, followed by a comparison of simulated time–settlement curves with experimental measurements for Singapore marine clay and a parametric study illustrating the effects of nonuniform N distribution on centrifuge consolidation behavior. Simulations indicate that the effect of spatially varying N is most strongly controlled by the ratio of specimen height to centrifuge arm length and that the error associated with the assumption of constant N is relatively small if this ratio is 0.2 or less. Finally, CC1 is used to calculate the optimal location within a centrifuge specimen of Singapore m...

[1] T. S. Nagaraj,et al. Stress-state—permeability relations for overconsolidated clays , 1994 .

[2] Malcolm D. Bolton,et al. Centrifugal and numerical modelling of reinforced embankments on soft clay installed with wick drains , 2001 .

[3] M. Hubbert,et al. The Theory of Ground-Water Motion , 1940, The Journal of Geology.

[4] Patrick J. Fox,et al. CS2: A PIECEWISE-LINEAR MODEL FOR LARGE STRAIN CONSOLIDATION , 1997 .

[5] D. Gidaspow. SEDIMENTATION AND CONSOLIDATION , 1994 .

[6] M. Mikasa,et al. Selfweight Consolidation of Very Soft Clay by Centrifuge , 1984 .

[7] Andrew Schofield,et al. Cambridge Geotechnical Centrifuge Operations , 1980 .

[8] Chun Fai Leung,et al. Centrifuge Model Study of Laterally Loaded Pile Groups in Clay , 2004 .

[9] J. Bear. Dynamics of Fluids in Porous Media , 1975 .

[10] Paolo Croce,et al. EVALUATION OF CONSOLIDATION THEORIES BY CENTRIFUGE MODELLING , 1985 .

[11] SOLUTION CHARTS FOR FINITE STRAIN CONSOLIDATION OF NORMALLY CONSOLIDATED CLAYS , 1999 .

[12] Abir Al-Tabbaa,et al. Some measurements of the permeability of kaolin , 1987 .

[14] Michael McVay,et al. Quiescent Consolidation of Phosphatic Waste Clays , 1986 .

[15] Thiam-Soon Tan,et al. A COMPARATIVE STUDY OF SUCTION-INDUCED SEEPAGE CONSOLIDATION VERSUS CENTRIFUGE CONSOLIDATION , 2003 .