The objective of this study is to derive an effective stress-based constitutive law capable of predicting rate-dependent stress-strain, stress path and undrained shear strength and creep behavior. The flow rule used in the MIT-E3 model and viscoplasticity theory is employed in the derivation. The model adopts the yield surface capable of representing the yield behavior of the Taipei silty clay and assumes that it is initially symmetric about the K-0-line. A method is then developed to compute the gyration and expansion of the loading surface to simulate the anisotropic behavior due to the principal stress rotation after shear. There are 11 parameters required for the model to describe the soil behavior and six of them are exactly the same as those used in the Modified Cam-clay model. The five additional parameters can be obtained by parametric studies or conventional soil tests, such as consolidation tests, triaxial compression and extension tests. Finally, verification of the model for the anisotropic behavior, creep behavior and the rate-dependent undrained stress-strain and shear strength of the Taipei silty clay is conducted.

• 出版日期2011-8-10