Bounding Cam Clay

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This command is used to construct a multi-dimensional bounding surface Cam Clay material object after Borja et al. (2001).

nDMaterial BoundingCamClay $matTag $massDensity $C $bulkMod $OCR $mu_o $alpha $lambda $h $m
$matTag integer tag identifying material
$massDensity mass density
$C ellipsoidal axis ratio
$bulkMod initial bulk modulus
$OCR overconsolidation ratio
$mu_o elastic shear modulus
$alpha pressure-dependent parameter
$lambda soil compressibility index for virgin loading
$h hardening parameter
$m hardening parameter

The material formulations for the BoundingCamClay object are "ThreeDimensional" and "PlaneStrain"


Code Developed by Chris McGann & Pedro Arduino, at the University of Washington


Notes

This nDMaterial object provides the bounding surface plasticity model of Borja et al. (2001) in which the bounding surface model is represented using modified Cam-Clay theory (references). In addition to the standard capabilities of the Cam-Clay family of models (e.g., pressure dependence, hardening with plastic volumetric contraction, softening with plastic dilation, and coupled deviatoric and volumetric plastic deformation), the Borja et al. (2001) model has been enhanced to include an anisotropic bounding surface formulation that allows for consideration of hysteretic behaviour under cyclic loading. This bounding surface Cam-Clay model is coupled with a nonlinear hyperelastic model that considered pressure-dependency in the bulk and shear modulus. The full theory of this model is discussed in great detail in Borja et al. (2001), and the essential ideas are summarized in the theory section of this article.

Usage Examples


References

Borja, R.I., Lin, C.-H., and Montans, F.J. (2001) 'Cam-Clay plasticity, Part IV: Implicit integration of anisotropic bounding surface model with nonlinear hyperelasticity and ellipsoidal loading function' Computer Methods in Applied Mechanics and Engineering. 190(26), 3293-3323, doi: 10.1016/S0045-7825(00)00301-7.


Theory

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Example Analysis