Bibliography
=============


1. [:ref:`Bar62 <Bar62>`] BARENBLATT G.I.; The mathematical theory of equilibrium cracks in brittle fracture, Adv. Appl. Mech., 55-129, 1962


2. [:ref:`CR09039 <CR09039>`] K.Kazymyrenko, J. Laverne; Advancement of mechanical modeling of joint pads, CR- AMA .09.039, 2009


3. [:ref:`CR10357 <CR10357>`] C.Kazymyrenko, J.Laverne; Status and perspectives for modeling joints in dams, CR- AMA .10.357, 2010


4. [:ref:`Div97 <Div97>`] P. Divoux, Modeling the hydromechanical behavior of discontinuities in rock structures and foundations: application to concrete dams, 1997


5. [:ref:`Kol00 <Kol00>`] P. Kolmayer; Modeling the hydromechanical behavior of joints in concrete dams, IH/ CODHY/GCED /00001/AO,


6. [:ref:`Lav04 <Lav04>`] LAVERNE J., Energetic formulation of rupture through cohesive force models: theoretical considerations and numerical implementations, 2004


7. [:ref:`Ngu77 <Ngu77>`] Nguen Quoc Sun;, International Journal for Numerical Methods in Engineering, 817-832, 1977


8. [:external:ref:`R5.03.02 <R5.03.02>`] Integrating Von Mises elasto-plastic behavior relationships, Code_Aster Reference Manual,


9. [:ref:`Mohr1900 <Mohr1900>`] Mr. Mohr. Welche umst ̈ande bedingen die elastizit ̈atsgrenze und den bruch eines materials? Zeitschrift des Vereines deutscher Ingenieure, 44:1524 —1530, 1900.


10. [:ref:`Coulomb1776 <Coulomb1776>`] C. A. Coulomb. Essay on an application of the maximis and minimis rules to some static problems, relating to architecture. Royal Academy of Sciences Paris Mem. Math. Phys., 7:343 —382, 1776.


11. [:ref:`Drucker1952 <Drucker1952>`] D.C. Drucker and W. Prager. Soil mechanics and plastic analysis or limit design. Quarterly of Applied Mathematics, 10:157 —165, 1952.


12. [:ref:`Marigo2019 <Marigo2019>`] Jean-Jacques Marigo and Kyrylo Kazymyrenko. A micromechanical inspired model for the coupled to damage elastoplastic behavior of geomaterials under compression. Mechanics & Industry, 20 (105), 2019


13. [:ref:`Hoek1980 <Hoek1980>`] Evert Hoek and Edwin T. Brown. Empirical strength criterion for rock masses. Journal of the Geotechnical Engineering Division, 106:1013 —1035, 1980.


14. [:ref:`Hoek1982 <Hoek1982>`] E. Hoek and E. T. Brown. Underground Excavation in Rock. E & FN Spon, 1982.


15. [:ref:`Germain1983 <Germain1983>`] P. Germain, Q. S. Nguyen, and P. Suquet. Continuum thermodynamics. Journal of Applied Mechanics, 50 (4b) :1010—1020, 1983. doi: 10.1115/1.3167184.


16. [:ref:`Collins1997 <Collins1997>`] I.F. Collins and G.T. Houlsby. Application of thermomechanical principles to the modelling of geotechnical materials. Proceedings of the Royal Society A: Mathematical, Physical, and Engineering Sciences, 453 (1964) :1975—2001, 1997. doi: 10.1098/rspa.1997.0107.


17. [:ref:`Houlsby2007 <Houlsby2007>`] G.T. Houlsby and A.M. Puzrin. Principles of Hyperplasticity: An Approach to Plasticity Theory Based on Thermodynamic Principles. Springer Verlag London Limited, 2007. doi: 10.1007/978-1-84628-240-9.


18. [:ref:`Halphen1975 <Halphen1975>`] Bernard Halphen and Quoc Son Nguyen. On generalized standard materials. Journal of Mechanics, 14 (1) :39—63, January 1975.


19. [:ref:`Veermer1984 <Veermer1984>`] P.A. Veermer and R. de Borst. Non-associated plasticity for soils, concrete and rock. HERON, 29 (3) :1—64, 1984.


20. [:ref:`Fontana2022 <Fontana2022>`] "Interface problems for hydraulic structures" doctoral thesis Ilaria Fontana, University of Montpellier and EDF R&D, 2022