Articles | Volume 2
https://doi.org/10.5194/sand-2-119-2023
https://doi.org/10.5194/sand-2-119-2023
Conference Abstract
 | 
06 Sep 2023
Conference Abstract |  | 06 Sep 2023

BARIK: an extended Hoek–Brown-based anisotropic constitutive model for fractured crystalline rock

Rocio Paola León Vargas, Max Friedel, Alireza Hassanzadegan, Michael Rahmig, Fabian Weber, and Heinz Konietzky

Related authors

BARIK: laboratory programme within the framework of the development of an extended Hoek–Brown-based anisotropic constitutive model for fractured crystalline rock
Max Friedel, Fabian Weber, Heinz Konietzky, Paola Rocio León Vargas, Alireza Hassanzadegan, and Michael Rahmig
Saf. Nucl. Waste Disposal, 2, 63–63, https://doi.org/10.5194/sand-2-63-2023,https://doi.org/10.5194/sand-2-63-2023, 2023
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Short summary
This contribution gives an overview of how the BARIK constitutive model was developed and tested. BARIK is an extended Hoek–Brown model for fractured crystalline rock that takes up to three fracture systems into account. It gives a numerical value to qualitative integrity criteria to show that the containment-providing rock zone in crystalline host rock is still intact. The BARIK model is a step forward in understanding and modeling the complex behavior of fractured crystalline hard rock.