I. Tawk, J. Aubry, P. Navarro, J. F. Ferrero, S. Marguet et al., Study of impact on helicopter blade, vol.24, pp.38-45, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01853068

, Standard test method for impact strength of adhesive bonds, pp.950-953

, Adhesives -determination of dynamic resistance to cleavage of high-strength adhesive bonds under impact conditions -wedge impact adhesive, vol.11343, 2003.

R. D. Adams and J. A. Harris, A critical assessment of the block impact test for measuring the impact strength of adhesive bonds, International Journal of Adhesion and Adhesives, vol.16, issue.2, pp.61-71, 1996.

R. Avendaño, R. J. Carbas, E. A. Marques, L. F. Silva, and A. A. Fernandes, Effect of temperature and strain rate on single lap joints with dissimilar lightweight adherends bonded with an acrylic adhesive, Composite Structures, vol.152, pp.34-44, 2016.

C. Sato and K. Ikegami, Strength of Adhesively-Bonded Butt Joints of Tubes Subjected to Combined High-Rate Loads, vol.70, pp.57-73, 1999.

Z. Jia, D. Hui, G. Yuan, J. Lair, K. Lau et al., Mechanical properties of an epoxybased adhesive under high strain rate loadings at low temperature environment, Composites Part B: Engineering, vol.105, pp.132-137, 2016.

P. C. Sato, Design for Impact Loads, Handbook of Adhesion Technology, pp.743-763, 2011.

J. E. Field, S. M. Walley, W. G. Proud, H. T. Goldrein, and C. R. Siviour, Review of experimental techniques for high rate deformation and shock studies, International Journal of Impact Engineering, vol.30, issue.7, pp.725-775, 2004.

A. M. Hamouda and M. S. Hashmi, Testing of composite materials at high rates of strain: advances and challenges, Journal of Materials Processing Technology, vol.77, issue.13, pp.327-336, 1998.

P. L. Goglio, Handbook of Adhesion Technology, pp.503-532, 2011.

L. F. Silva, R. D. Adams, B. R. Blackman, L. Goglio, M. Peroni et al., Higher Rate and Impact Tests, Testing Adhesive Joints, pp.273-317, 2012.

B. Valès, S. Marguet, R. Créac'hcadec, L. Sohier, J. Ferrero et al., Numerical study of the local behaviour of adhesive bonds under dynamic loading, Journal of adhesion science and technology, vol.30, issue.12, pp.1319-1339, 2016.

B. Valès, S. Marguet, R. Créac'hcadec, L. Sohier, J. Ferrero et al., Experimental & numerical study of the tensile/compression-shear Arcan test under dynamic loading, International Journal of Adhesion and Adhesives, vol.78, pp.135-147, 2017.

R. Créac'hcadec, L. Sohier, C. Cellard, and B. Gineste, A stress concentration-free bonded arcan tensile compression shear test specimen for the evaluation of adhesive mechanical response, International Journal of Adhesion and Adhesives, vol.61, pp.81-92, 2015.

L. Arcan, M. Arcan, and L. Daniel, Sem fractography of pure and mixed mode interlaminar fracture in graphite/epoxy composites, Philadelphia, vol.948, pp.41-67, 1987.

J. Y. Cognard, P. Davies, B. Gineste, and L. Sohier, Development of an improved adhesive test method for composite assembly design, Composite Science and Technology, vol.65, pp.359-368, 2005.

J. Cognard, P. Davies, L. Sohier, and R. Créac'hcadec, A study of the non-linear behaviour of adhesively-bonded composite assemblies, Composite Structures, vol.76, pp.34-46, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00493242

A. Beevers and M. D. Ellis, Impact behaviour of bonded mild steel lap joints, International Journal of Adhesion and Adhesives, vol.4, issue.1, pp.13-16, 1984.

, Metallic materials -tensile testing part 1: Method of test at room temperature, pp.6892-6893

. Dow-®-automotive, Dow ® Technical Datasheet -Betamate TM 1496V, 2016.

, Plastics -determination of tensile properties -part 1: general principles -plastiques, NF EN ISO, pp.527-528

, Adhesives -determination of tensile lap-shear strength of bonded assemblies, NF EN 1465

M. May, O. Hesebeck, S. Marzi, W. Bhme, J. Lienhard et al., , p.22

. Hiermaier, Rate dependent behavior of crash-optimized adhesives experimental characterization, model development, and simulation, Engineering Fracture Mechanics, vol.133, pp.112-137, 2015.