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Interpretation of piezocone tests in normally- and over-consolidated clay using a spherical cavity expansion solution
Abstract This paper presents the derivation of closed-form expressions for the interpretation of piezocone tests in clay on the basis of an undrained cavity expansion solution. The cavity expansion solution employs the modified Unified Hardening model to describe the undrained behaviour of normally- and over-consolidated clays upon shearing. The derived expressions correlate the measured tip resistance and pore pressure with the undrained shear strength and the over-consolidation ratio, using a cone factor that, unlike empirical formulas, is calculated directly from the constitutive model parameters and the cone geometry. The cavity expansion solution is validated via comparison of its results against published studies, and accordingly the accuracy of the proposed expressions is benchmarked against field data. We show that, despite the simplifications introduced in the derivation, the calibrated expressions are capable of reproducing the field data with reasonable accuracy.
Interpretation of piezocone tests in normally- and over-consolidated clay using a spherical cavity expansion solution
Abstract This paper presents the derivation of closed-form expressions for the interpretation of piezocone tests in clay on the basis of an undrained cavity expansion solution. The cavity expansion solution employs the modified Unified Hardening model to describe the undrained behaviour of normally- and over-consolidated clays upon shearing. The derived expressions correlate the measured tip resistance and pore pressure with the undrained shear strength and the over-consolidation ratio, using a cone factor that, unlike empirical formulas, is calculated directly from the constitutive model parameters and the cone geometry. The cavity expansion solution is validated via comparison of its results against published studies, and accordingly the accuracy of the proposed expressions is benchmarked against field data. We show that, despite the simplifications introduced in the derivation, the calibrated expressions are capable of reproducing the field data with reasonable accuracy.
Interpretation of piezocone tests in normally- and over-consolidated clay using a spherical cavity expansion solution
Zhang, Minsheng (author) / Wang, Chaoqun (author) / Kouretzis, George (author) / Luan, Lubao (author)
2023-05-05
Article (Journal)
Electronic Resource
English
Velocity effects on piezocone measurements in normally and over consolidated clays
| British Library Online Contents | 2007
Biaxial tests on normally, anisotropically consolidated clay
| British Library Conference Proceedings | 1997
Consolidation of normally consolidated clay
| Engineering Index Backfile | 1965
Finite element analysis of piezocone penetration in anisotropically consolidated clay
| British Library Conference Proceedings | 2004