G. Fabrice, S. Léonardo, and J. Mmmmm, Numerical determination of the tensile response and the dissipated fracture energy of concrete : role of the mesostructure and influence of the loading rate, International Journal for Numerical and Analytical Methods in Geomechanics, vol.37, issue.18, pp.3112-3130, 2013.

R. Pppppppp, A. Ssssss, and L. Sluys, Mesoscopic modeling and simulation of the dynamic tensile behavior of concrete, Cement and Concrete Research, vol.50, pp.74-87, 2013.

L. Bouthaina, Caractérisation du transport diffusif dans les matériaux cimentaires : influence de la microstructure dans les mortiers, 2013.

Y. Hh, H. Hh, and X. Zzzz, Numerical analysis of concrete material properties at high strain rate under direct tension, International Journal of Impact Engineering, vol.39, issue.1, pp.51-62, 2012.

X. Zzzz and H. Hh, Mesoscale modelling of concrete tensile failure mechanism at high strain rates, Computers & Structures, vol.86, issue.21, pp.2013-2026, 2008.

H. Stefan, E. Stefan, L. Torsten, and C. Kkkkk, Mesoscale modeling of concrete : Geometry and numerics, Computers & structures, vol.84, issue.7, pp.450-461, 2006.

M. Guilhem and Z. Jidong, 3d generation of realistic granular samples based on random fields theory and fourier shape descriptors, Computer Methods in Applied Mechanics and Engineering, vol.279, pp.46-65, 2014.

S. Simo and Y. Jouko, Particle packing simulations based on newtonian mechanics, Powder technology, vol.174, issue.3, pp.82-92, 2007.

S. Piet and S. Martijn, Assessment of packing characteristics by computer simulation, Cement and Concrete Research, vol.29, issue.8, pp.1201-1206, 1999.

D. L. Boris and H. Frank, Geometric properties of random disk packings, Journal of Statistical Physics, vol.60, issue.5- 6, pp.561-583, 1990.

M. Radii, E. Kkkkkkkkk, and N. Yu, Investigation of the density characteristics of three-dimensional stochastic packs

J. Jean-françois, I. Didier, F. -. Victor, D. , and P. Ddddddd, A geometric algorithm based on tetrahedral meshes to generate a dense polydisperse sphere packing, Granular Matter, vol.11, issue.1, pp.43-52, 2009.

C. Liang and C. O. Ssssss, Analysis of a triangulation based approach for specimen generation for discrete element simulations, Granular Matter, vol.5, issue.3, pp.135-145, 2003.

B. Matthieu, B. Farid, L. Christian, and J. Tttttttt, Creep consideration effect on meso-scale modeling of concrete hydration process and consequences on the mechanical behavior, Journal of Engineering Mechanics, vol.139, issue.12, pp.1808-1817, 2013.

S. Leonardo, C. Antonio, and J. Mmmmm, Influence of the meso-structure in dynamic fracture simulation of concrete under tensile loading, Cement and Concrete Research, vol.41, issue.11, pp.1130-1142, 2011.

Y. Bbbbbbbb, A new approach to the application of mori-tanaka's theory in composite materials, Mechanics of materials, vol.6, issue.2, pp.147-157, 1987.

C. Gianluca, P. B. Zden?k, and L. Ccccccc, Confinement-shear lattice csl model for fracture propagation in concrete, Computer methods in applied mechanics and engineering, vol.195, issue.52, pp.7154-7171, 2006.

L. Einar, . Hhhhhhhhhh, F. Jens, and J. Torstein, Geometry of random sequential adsorption, Journal of statistical physics, vol.44, issue.5-6, pp.793-827, 1986.

F. R. , J. Wwwww, and S. Vvvvvv, Probability distribution function for the random sequential adsorption of hard-disks. Physica A : Statistical Mechanics and its Applications, pp.283-292, 1996.

M. Marian and E. R. , Estimation of the available surface and the jamming coverage in the random sequential adsorption of a binary mixture of disks, Colloids and Surfaces A : Physicochemical and Engineering Aspects, vol.232, issue.1, pp.1-10, 2004.

P. B. Zdenek, R. T. Mazen, T. Mohammad, and G. Kkkkkk, Random particle model for fracture of aggregate or fiber composites, Journal of engineering mechanics, vol.116, issue.8, pp.1686-1705, 1990.

N. Dung, L. Claire, L. B. Christian, M. Mohammed, and G. N. , A mesoscopic model for a better understanding of the transition from diffuse damage to localized damage, European Journal of Environmental and Civil engineering, vol.14, issue.6-7, pp.6-7751, 2010.
DOI : 10.3166/ejece.14.751-776

J. Lll, S. Ddd, J. Zzzz, and N. Llll, Lattice type of fracture model for concrete. Theoretical and Applied Fracture Mechanics, pp.269-284, 2007.

S. Leonardo, G. Fabrice, and J. Mmmmm, A meso-mechanical model for concrete under dynamic tensile and compressive loading, International journal of fracture, vol.178, issue.1 2, pp.179-194, 2012.

B. Rrrrrr, Tests of randomness' for spatial point patterns, Journal of the Royal Statistical Society. Series B (Methodological), pp.368-374, 1979.

D. Brian and . Rrrrrr, Spatial statistics, 1981.

S. Dietrich and H. S. , Fractals, random shapes, and point fields : methods of geometrical statistics, 1994.

M. Philip and . Ddd, Ripley's k function. Encyclopedia of environmetrics, 2002.

A. P. and M. Oo, An efficient adaptive procedure for three-dimensional fragmentation simulations, Engineering with Computers, vol.18, issue.2, pp.148-159, 2002.

K. D. Chin-hang, S. , and S. A. , Time continuity in cohesive finite element modeling, International Journal for Numerical Methods in Engineering, vol.58, issue.5, pp.679-701, 2003.

J. F. Mmmmm, G. G. , R. Rr, A. R. , and F. Zzzz, The cohesive element approach to dynamic fragmentation : the question of energy convergence, International Journal for Numerical Methods in Engineering, vol.69, issue.3, pp.484-503, 2007.

N. Mortimore and N. , A method of computation for structural dynamics, Proc. ASCE, pp.67-94, 1959.

M. Oo, Computational modelling of impact damage in brittle materials, International Journal of Solids and Structures, vol.33, issue.20, pp.2899-2938, 1996.