Poromechanics of Anisotropic Hollow Cylinders |
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Authors: | Mazen Kanj Younane Abousleiman Roger Ghanem |
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Affiliation: | 1Sr. Research Associate, PoroMechanics Institute, Univ. of Oklahoma, Norman, OK?73019-1014; currently, Petroleum Engineer II, Saudi Aramco, P.O. Box 9892, Dhahran 31311, KSA. 2Professor, School of Civil Engineering & Environment Sci./Mewbourne School Petroleum & Geological Engineering; Director, PoroMechanics Institute, Univ. of Oklahoma, Norman, OK?73019-1014. 3Professor Dept. Civil Engineering, Johns Hopkins Univ., Baltimore, MD?21218.
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Abstract: | It has been known that inherent material anisotropy influences the mechanics of geoengineering applications. Aiming at the experimental studies associated with geoengineering applications in anisotropic materials, this paper proposes a poromechanics analysis of a fully saturated transversely isotropic hollow cylinder. Closed-form analytical solutions for the pore pressure and stress fields were derived. These solutions are obtained under various loading conditions that are encountered in laboratory testing procedures. Numerical analyses were carried out to demonstrate the material anisotropy effect on stress, displacement, and pore pressure distributions in the cylinder. It is also shown that uncertainties in the estimation or measurements of the poromechanical parameters have proven effects on the time-dependent responses of the hollow cylinder geometry during laboratory testing. |
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Keywords: | Poroelasticity Porous media Uncertainty analysis Simulation models Triaxial tests Cylinders Anisotropic materials |
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