This work consists in the development of a numerical model in order to simulate the fracture process in concrete structures. This model is supported by concepts of the Finite Element Method and the Fracture Mechanics applied to concrete. The main keyword which characterizes this work is interface element. This finite element permits the modelling of discontinuities in the finite element mesh among the edges of the elements. In this work, these elements are used to represent cracks in concrete structures. The cracks modelling is supported by the discrete crack concept, which is associated to a constitutive model called elastic-softening, specific for the crack or for the interface element. In this work, the nonlinear analyses were limited to structural systems under fracture mode I.This work consists in the development of a numerical model in order to simulate the fracture process in concrete structures. This model is supported by concepts of the Finite Element Method and the Fracture Mechanics applied to concrete. The main keyword which characterizes this work is interface element. This finite element permits the modelling of discontinuities in the finite element mesh among the edges of the elements. In this work, these elements are used to represent cracks in concrete structures. The cracks modelling is supported by the discrete crack concept, which is associated to a constitutive model called elastic-softening, specific for the crack or for the interface element. In this work, the nonlinear analyses were limited to structural systems under fracture mode I.This work consists in the development of a numerical model in order to simulate the fracture process in concrete structures. This model is supported by concepts of the Finite Element Method and the Fracture Mechanics applied to concrete. The main keyword which characterizes this work is interface element. This finite element permits the modelling of discontinuities in the finite element mesh among the edges of the elements. In this work, these elements are used to represent cracks in concrete structures. The cracks modelling is supported by the discrete crack concept, which is associated to a constitutive model called elastic-softening, specific for the crack or for the interface element. In this work, the nonlinear analyses were limited to structural systems under fracture mode I.