L. Gibson, L. , M. Ashby, and M. , Cellular Solids : Structure and Properties (Cambridge Solid State Science Series), 1997.

H. L. Schreyer, Q. H. Zuo, and A. K. Maji, Anisotropic Plasticity Model for Foams and Honeycombs, Journal of Engineering Mechanics, vol.120, issue.9, pp.1913-1930, 1993.

O. Faruque, N. Liu, and C. C. Chou, Strain rate dependent foam : constitutive modeling and applications, SAE Transactions, vol.106, pp.904-912, 1997.

M. Avalle, G. Belingardi, and R. Montanini, Characterization of polymeric structural foams under compressive impact loading by means of energy-absorption diagram, International Journal of Impact Engineering, vol.25, issue.5, pp.455-472, 2001.

W. Chen, F. Lu, and N. Winfree, High-strain-rate Compressive Behavior of a Rigid Polyurethane Foam with Various Densities, Experimental Mechanics, vol.42, issue.1, pp.65-73, 2002.

H. Zhao, G. Gary, and J. Klepaczko, On the use of a viscoelastic split Hopkinson pressure bar, International Journal of Impact Engineering, vol.19, pp.319-330, 1997.
URL : https://hal.archives-ouvertes.fr/hal-00111585

J. Liu, D. Saletti, S. Pattofatto, and H. Zhao, Impact testing of polymer foam using Hopkinson bars and digital image analysis, Polymer testing, vol.36, pp.101-109, 2014.

N. F. Afnor and . En, Produits isolants thermiques destinés aux applications du bâtiment -Détermination du comportement en compression, vol.826, 2013.

. David, SHPB tests analysis software

Z. H. Tu, V. P. Shim, and . C. Lim, Plastic deformation modes in rigid polyurethane foam under static loading, International Journal of Solids and Structures, vol.38, pp.9267-9279, 2001.

T. R. Walter, A. W. Richards, W. Andrew, and G. Subhash, A unified phenomenological model for tensile and compressive response of polymeric foams, Journal of Engineering Materials and Technology, vol.131, issue.1, pp.1-6, 2001.

P. Viot, Comportement des matériaux cellulaires sous sollicitations dynamiques. Partie 1 : approche macroscopique, Mécanique & Industries, vol.11, pp.1-23, 2010.