Multimechanism Elasto‐Plastic Model for Soils
Publication: Journal of Engineering Mechanics
Volume 116, Issue 9
Abstract
A multiple‐mechanism elasto‐plastic model for soils applicable to general three‐dimensional stress states and cyclic loadings is presented. The model uses the concept of mobilized friction angles to define yielding. In stress space, the postulated yielding mechanisms define an elastic domain whose boundary is, in general, nonsmooth and possesses comers. Theoretical and computational aspects of the model are discussed in detail. Numerical implementation of the model is performed using the cutting plane algorithm. The model accuracy is demonstrated using triaxial soil test data and previously determined material parameters. The model is accurate in characterizing soil behavior and able to capture both com‐pactive and dilative responses of soil. Also, the accuracy of the stress‐point algorithm used for the update of the stress state is analyzed and found to be acceptable. Finally, the model is used to compute the response of a semi‐infinite saturated soil deposit consisting of loose and dense layers subjected to earthquake base excitation. Resulting changes in pore fluid pressure, accompanied by changes in vertical effective normal stress, are illustrated.
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References
1.
Aubry, D., et al. (1982). “A double memory model with multiple mechanisms for cyclic soil behaviour.” Proc., Int. Symp. Num. Methods Geomech., Sep., 3–13.
2.
Coulomb, C. A. (1972). “Essai sur une application des Regies de Maximis et Minimis à quelques Problemes de statique relatifs à l'Architecture.” Memoires par Divers Savants, Cambridge University Press, Cambridge, England.
3.
Drucker, D. C., Gibson, R. E., and Henkel, D. J. (1955). “Soil mechanics and workhardening theories of plasticity,” Proc., ASCE, 81, 1–14.
4.
Kabilamany, K., and Ishihara, K. (n.d.). “Cyclic behavior of sand by multiple shear mechanism model,” Int. J. Soil Dynamics and Earthquake Engrg. (in press).
5.
Kabilamany, K., and Ishihara, K. (n.d.). “Stress dilatancy and hardening laws for rigid granular model of sand,” Int. J. Soil Dynamics and Earthquake Engrg. (in press).
6.
Koiter, W. T. (1960). “General theorems for elastic‐plastic soilds.” Progress in solid mechanics, I, I. N. Sneddon and R. Hill, eds., North Holland, Amsterdam, 165–221.
7.
Mandel, J. (1965). “Une Generalisation de la Theorie de Koiter.” Int. J. Solids and Structs., I, 273–295.
8.
Ortiz, M., and Popov, E. P. (1985). “Accuracy and stability of integration algorithms for elastoplastic constitutive relations,” Int. J. Num. Meth. Engrg., 21(9), 1561–1576.
9.
Ortiz, M., and Simo, J. C. (1986). “An analysis of a new class of integration algorithms for elasto‐plastic constitutive relations.” Int. J. Num. Meth. Engrg., 23(3), 353–366.
10.
Prevost, J. H. (1988). “DYNA1D: a computer program for nonlinear seismic site response analysis.” Report No. NCEER‐88‐0025, Department of Civil Engineering and Operations Research, Princeton Univ., Princeton, N.J.
11.
Scott, R. F. (1985). “Plasticity and constitutive relations in soil mechanics.” J. Geotech. Engrg., ASCE, 111(5), 563–605.
12.
Simo, J. C., et al. (1987). “Unconditionally convergent algorithms for non‐smooth multisurface plasticity amenable to exact linearization.” Advances in Inelastic Analysis, S. Nakazawa, K. William and N. Rebelo, eds., American Society of Mechanical Engineers, 87–95.
13.
Simo, J. C., and Ortiz, M. (1985). “A unified approach to finite deformation elastoplastic analysis based on the use of hyperelastic constitutive equations.” Comp. Meth. Appl. Mech. Engrg., 49, 221–245.
Information & Authors
Information
Published In
Journal of Engineering Mechanics
Volume 116 • Issue 9 • September 1990
Pages: 1924 - 1944
Copyright
Copyright © 1990 ASCE.
History
Published online: Sep 1, 1990
Published in print: Sep 1990
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