C. Kassapoglou, Design and Analysis of Composite Structures: With Applications to Aerospace Structures, 2011.

D. Zenkert, The handbook of sandwich construction. London: Emas, 1997.

D. Gay, Composite Materials: Design and Applications, Third Edition, 2014.

R. Seemann and D. Krause, Numerical modelling of Nomex honeycomb sandwich cores at meso-scale level, Compos Struct, vol.159, pp.702-718, 2017.

P. Bunyawanichakul, B. Castanié, and J. J. Barrau, Non-linear finite element analysis of inserts in composite sandwich structures, Compos Part B Eng, vol.39, issue.7-8, pp.1077-1092, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02025740

P. Bunyawanichakul, B. Castanié, and J. J. Barrau, Experimental and numerical analysis of inserts in sandwich structures, Appl Compos Mater, vol.12, pp.177-191, 2005.
URL : https://hal.archives-ouvertes.fr/hal-02025700

L. Mezeix, S. Dols, and C. Bouvet, Experimental analysis of impact and post-impact behaviour of inserts in Carbon sandwich structures, J Sandw Struct Mater, vol.21, issue.1, pp.135-153, 2019.
URL : https://hal.archives-ouvertes.fr/hal-01828703

, MIL-HDBK-23A Structural Sandwich Composites Departement of defense USA, 1974.

J. Rodriguez-ramirez, C. B. Bouvet, and C. , Experimental and numerical analysis of the shear nonlinear behaviour of Nomex honeycomb core: Application to insert sizing, Comp Struct, vol.193, pp.121-134, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01793199

B. Smith and B. Banerjee, Reliability of inserts in sandwich composite panels, Compos Struct, vol.94, pp.820-829, 2012.

N. Raghu, M. Battley, M. Southward, and T. , Strength Variability of Inserts in Sandwich Panels, J Sand Struct Mater, vol.11, pp.501-517, 2009.

S. Slimane, S. Kebdani, A. Boudjemai, and A. Slimane, Effect of position of tensionloaded inserts on honeycomb panels used for space applications, Int J Interact Des Manuf, vol.12, issue.2, pp.393-408, 2018.

A. European-space, ECSS E HB 32 22A Insert Design Handbook, 2011.

J. Wolff and F. Trimpe, Evaluation of an Analytical Approach Predicting the Transversal Failure Load of Insert Connections in Sandwich Structures, 20th International Conference on Composite Materials, Copenhagen, pp.19-24, 2015.

J. Wolff, M. Brysch, and C. Hühne, Validity check of an analytical dimensioning approach for potted insert load introductions in honeycomb sandwich panels, Comp Struct, vol.202, pp.1195-1215, 2018.

R. Seemann and D. Krause, Numerical modelling of partially potted inserts in honeycomb sandwich panels under pull-out loading, Comp Struct, vol.203, pp.101-109, 2018.

R. Seemann and D. Krause, Virtual Testing of Nomex Honeycomb Sandwich Panel Inserts, 20th International Conference on Composite Materials, Copenhagen, 2015.

J. Rodríguez-ramírez, B. Castanié, and C. Bouvet, Damage Mechanics Modelling of the shear nonlinear behavior of Nomex honeycomb core. Application to sandwich beams, Mech Adv Mater Struct

S. Heimbs and M. Pein, Failure behaviour of honeycomb sandwich corner joints and inserts, Comp Struct, vol.89, issue.4, pp.575-588, 2009.

B. Park, Y. Kweon, J. H. Choi, and J. H. , Failure characteristics of carbon/BMI-Nomex sandwich joints in various hygrothermal conditions, Comp Part B Eng, vol.60, pp.213-221, 2014.

. Bunyawanichakul-p, Contribution à l'étude du comportement des inserts dans les structures sandwichs composites, PhD École Nationale Supérieure de l'Aéronautique et de l'Espace, 2005.

P. Bunn and J. T. Mottram, Manufacture and compression properties of syntactic foams, Composites, vol.24, issue.7, pp.565-571, 1993.

R. Heslehurst and . Defects, Composite Materials and Structures, 2014.

P. Kumsantia, P. Castanié, and P. Bunyawanichakul, An investigation of failure scenario of the metallic insert in sandwich structures, The First TSME International Conference on Mechanical Engineering, 2010.

K. I. Song and J. Y. Choi, An experimental study of the insert joint strength of composite sandwich structures, Comp Struct, vol.86, issue.1-3, pp.107-113, 2008.

G. Bianchi, G. S. Aglietti, and G. Richardson, Static performance of hot bonded and cold bonded inserts in honeycomb panels, J Sand Struct Mater, vol.13, issue.1, pp.59-82, 2011.

K. Bj and D. G. Lee, Characteristics of joining inserts for composite sandwich panels, Comp Struct, pp.55-60, 2008.

S. M. Lee, Handbook of Composite Reinforcements, 1993.

N. Gupta, R. Ye, and M. Porfiri, Comparison of tensile and compressive characteristics of vinyl ester/glass microballoon syntactic foams, Comp Part B, vol.41, pp.236-245, 2009.

L. Bardella and F. Malanca, A micromechanical model for quasi-brittle compressive failure of glass-microballoons/thermoset-matrix syntactic foams, J Eur Ceram Soc, vol.34, issue.11, pp.2605-2616, 2014.

R. Huang and P. Li, Elastic behaviour and failure mechanism in epoxy syntactic foams: The effect of glass microballoon volume fractions, Comp Part B, vol.78, pp.401-408, 2015.

G. Nian and Y. Shan, Failure analysis of syntactic foams: A computational model with cohesive law and XFEM, Comp Part B, vol.89, pp.18-26, 2016.

E. Rizzi, E. Papa, and A. Corigliano, Mechanical behavior of a syntactic foam: Experiments and modeling, Int J Solids Struct, vol.37, issue.40, pp.5773-5794, 2000.