5. Bibliographical references#

  1. Barenblattg. I., The mathematical theory of equilibrium cracks in brittle fracture. Adv. appeal Mech., 7, pp. 55-129 (1962).

  1. Charlotte M., Frankfurt G.A., Marigo J. -J. and Truskinovskyl., Revisiting brittle fracture as an energy minimization problem: comparison of Griffith and Barenblatt surface energy models. Proceedings of the Symposium on « Continuous Damage and Fracture » The data science library, Elsevier, edited by A. Benallal, Paris, pp. 7-18, (2000).

  1. Frankfurt G.A. and Marigo J.-J., Revisiting brittle fracture as an energy minimization problem. J. Mech. Phys. Solids, 46 (8), pp. 1319-1342 (1998).

  1. Jirasekm., Comparative study on elements with embedded discontinuities. Comp. Meth.*Call. Mech. Eng., 18 pp. 307-30 (2000).

  1. Jirasekm., Embedded crack models for concrete fracture. In R. de Borst, H. N. Mang Bicanic, and G. Meschke, editors, Comp. Mod. of concrete Struct. (EURO -C), pp. 291-300 (1998).

  1. Laverne J. Energetic formulation of rupture by cohesive force models, theoretical considerations and numerical implementations, Doctoral thesis from the University of Paris XIII, (November 2004), (November 2004).

  1. LoRentze. and BaDelp., A new path-following constraint for strain-softening finite element simulations. Int. Mr. Num. Meth. Eng. 60 pp. 499-526 (2004).