N. J. Hoff and S. E. Mautner, Sandwich construction, Aeronaut. Eng. Rev, vol.3, pp.1-7, 1944.

H. G. Allen, Analysis and Design of Structural Sandwich Panels, 1969.

F. G. Plantema, Sandwich Construction, 1966.

D. Zenkerts, The Handbook of Sanwdich Construction, 1997.

C. Kassapoglou, Design and Analysis of Composite Structures (with application to aerospace structures), 2010.

L. A. Carlsson and G. A. Kardomateas, Structural and Failure Mechanics of Sandwich Composites, 2011.

D. Gay, Composite Materials Design and Applications, 2015.

F. Neveu, B. Castanié, and P. Olivier, The GAP methodology: A new way to design composite structure Mater, Des, vol.172, p.107755

D. Guedra-degeorges, P. Thevenet, and S. Maison, Damage Tolerance of Aeronautical Sandwich Structures, Mechanics of Sandwich Structures, pp.29-36, 1998.

J. Tomblin, T. Lacy, B. Smith, S. Hooper, A. Vizzini et al., Review of damage tolerance for composite sandwich airframe structures, 1999.

B. Castanié, J. Barrau, and J. Jaouen, Theoretical and experimental analysis of asymmetric sandwich structures, Comp. Struct, vol.55, pp.295-306, 2002.

B. Castanié, J. Barrau, J. Jaouen, and S. Rivallant, Combined shear/compression structural testing of asymmetric sandwich structures, Exp. Mech, vol.44, pp.461-472, 2004.

B. Castanié, Contribution à l'étude des structures sandwichs dissymétriques, 2000.

J. Zhang, Q. Qin, X. Han, and W. Ai, The initial plastic failure of fully clamped geometrical asymmetric metal foam core sandwich beams, Comp. Part B, vol.87, pp.233-244, 2016.

J. Deng, A. Peng, W. Chen, G. Zhou, and X. Wang, On stability and damage behavior of asymmetric sandwich panels under uniaxial compression, J. Sandwich Struct. Mater. On line, 2020.

A. Fink and C. Einzmann, Discrete tailored asymmetric sandwich structures, Comp. Struct, vol.238, p.111990, 2020.

J. Rion, Y. Leterrier, J. E. Månson, and J. Blairon, Ultra-light asymmetric photovoltaic sandwich structures, Comp. Part A, vol.40, pp.1167-1173, 2009.

K. E. Evans, The design of doubly curved sandwich panels with honeycomb core, Comp. Struct, vol.17, pp.90064-90070, 1991.

S. Smidt, Bending of curved sandwich beams, a numerical approach, Comp. Struct, vol.34, pp.279-290, 1996.

O. T. Thomsen and J. R. Vinson, Conceptual design principles for non-circular pressurized sandwich fuselage sections -a design study based on a highorder sandwich theory formula-tion, J. Comp. Mater, vol.36, pp.313-345, 2002.

N. J. Hoff and S. E. Mautner, The buckling of sandwich type model, J. Aeronaut. Sci, vol.12, 1945.

L. Fagerberg and D. Zenkert, Imperfection-induced wrinkling material failure in sandwich panels, J. Sand. Struct. Mat, vol.7, pp.195-219, 2005.

E. E. Gdoutos, I. M. Daniel, and K. A. Wang, Compression facing wrinkling of composite sandwich structures, Mech. Mater, vol.35, pp.511-522, 2003.

L. Fagerberg and D. Zenkert, Effects of Anisotropy and Multi-axial Loading on the Wrinkling of Sandwich Panels, J. Sand. Struct. Mater, vol.7, pp.177-194, 2005.

B. K. Hadi and F. L. Matthews, Development of Benson-Mayers theory on the wrinkling of anisotropic sandwich panels, Comp. Struct, vol.49, pp.425-434, 2000.

R. Vescovini, M. Ottavio, L. Dozio, and O. Polit, Buckling and wrinkling of anisotropic sandwich plates International, J.Eng. Sci, vol.130, pp.136-156, 2018.

K. Niu and R. Talreja, Modeling of wrinkling in sandwich panels under compression, J. Eng. Mech, vol.125, pp.875-883, 1999.

K. Yu, H. Hu, S. Chen, S. Belouettar, and M. Potier-ferry, Multi-scale techniques to analyze instabilities in sandwich structures, Comp. Struct, vol.96, pp.751-762, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01501848

M. A. Douville and P. L. Grognec, Exact analytical solutions for the local and global buckling of sandwich beam-columns under various loadings, Int. J. Sol. Struct, vol.50, pp.2597-2609, 2013.

L. Léotoing, S. Drapier, and A. Vautrin, Nonlinear interaction of geometrical and material properties in sandwich beam instabilities, Int. J. Sol. Struct, vol.39, pp.181-187, 2002.

J. Bertolini, B. Castanié, J. J. Barrau, J. P. Navarro, and C. Petiot, Multi-level experimental and numerical analysis of composite stiffener debonding. Part 2: Element and panel level, Comp. Struct, vol.90, pp.392-403, 2009.
URL : https://hal.archives-ouvertes.fr/hal-02048203

S. Zhang, J. M. Dulieu-barton, and O. T. Thomsen, The effect of temperature on the failure modes of polymer foam cored sandwich structures, Comp. Struct, vol.121, pp.104-113, 2015.

B. Castanié and J. Ferrero, Nonlinear response of symmetric sandwich structures subjected to in-plane loads, Proceedings of the 10th International Conference on Sandwich Structures ICSS, pp.27-29, 2012.

B. Castanié, J. Barrau, J. Ferrero, and J. Jaouen, Analyse non linéaire et structurale des poutres sandwichs dissymétriques, vol.10, 2000.

P. Minguet, J. Dugundji, and P. Lagace, Bucking and failure of sandwich plates with graphite-Epoxy face and various core, Proceedings of the 28th AIAA/ASME/ASCE/AHS Structures, Structural Dynamics and Materials Conference, pp.6-8, 1987.

A. Tropis, M. Thomas, J. L. Bounie, and P. Lafon, Certification of the composite outer wing of the ATR72, J. Aerospace Eng. Proc. Inst. Mech. Eng. Part G, vol.209, pp.327-339, 1994.

J. Rouchon, Certification of Large Aircraft Composite Structures, Proceedings of the 17th ICAS, Recent Progress and New Trends in Compliance Philosophy, 1990.

E. Morteau and C. Fualdes, Composites @ Airbus, damage tolerance methodology. FAA Work-shop for Composite Damage Tolerance and Maintenance, 2006.

J. B. Chang, V. K. Goyal, J. C. Klug, and J. I. Rome, Composite Structures Damage Tolerance Analysis Methodologies

T. D. Mcquigg, Compression After Impact Experiments and Analysis on Honeycomb Core Sandwich Panels with Thin Facesheets

J. Tomblin, K. S. Raju, J. Liew, and B. Smith, Impact Damage Characterization Damage Tolerance of Composite Sandwich Airframe Structures, 2000.

J. Tomblin, K. S. Raju, J. F. Acosta, B. L. Smith, and N. A. Romine, Impact Damage Characterization And Damage Tolerance Of Composite Sandwich Airframe Structuresphase II, 2002.

J. Tomblin, K. S. Raju, and G. Arosteguy, Damage Resistance and Tolerance of Composite Sand-wich Panels -scaling Effects, 2003.

S. Abrate, B. Castanié, . Yapa, and . Rajapakse, Dynamic failure of composite and sandwich structures, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02185682

S. Heimbs, Virtual testing of sandwich core structures using dynamic finite element simulations, Comput Mater Sci, vol.45, pp.205-216, 2009.

Y. Aminanda, B. Castanié, J. Barrau, and P. Thevenet, Experimental analysis and modeling of the crushing of honeycomb cores, App. Comp. Mat, vol.12, pp.213-217, 2005.
URL : https://hal.archives-ouvertes.fr/hal-02025694

L. Liu, H. Wang, and Z. Guan, Experimental and numerical study on the mechanical response of Nomex honeycomb core under transverse loading, Comp. Struct, vol.121, pp.304-314, 2015.

B. Castanié, C. Bouvet, Y. Aminanda, J. Barrau, and P. Thevenet, Modelling of low energy/low velocity impact on nomex honeycomb sandwich structures with metallic skins, Int. J. Imp. Eng, vol.35, pp.620-634, 2008.

C. Audibert, A. Andréani, E. Lainé, and J. Grandidier, Discrete modelling of lowvelocity im-pact on Nomex® honeycomb sandwich structures with CFRP skins, Comp. Struct, vol.207, pp.108-118, 2019.

Y. Aminanda, B. Castanié, J. Barrau, and P. Thevenet, Experimental and numerical study of compression after impact of sandwich structures with metallic skins, Comp. Sci. Tech, vol.69, pp.50-59, 2009.
URL : https://hal.archives-ouvertes.fr/hal-02025736

T. E. Lacy and Y. Hwang, Numerical modeling of impact-damaged sandwich composites subjected to compression-after-impact loading, Comp. Struct, vol.61, pp.115-128, 2003.

B. Castanié, Y. Aminanda, C. Bouvet, and J. Barrau, Core crush criteria to determine the strength of sandwich composite structures subjected to compression after impact, Comp. Struct, vol.86, pp.243-250, 2008.

Z. Xie and A. J. Vizzini, A feasible methodology for engineering applications in damage tolerance of composite sandwich structures, J. Comp. Mater, vol.38, pp.891-914, 2004.

R. Aitken, Damage due to soft body impact on composite sandwich aircraft panels PhD Thesis, 2000.

S. Guo and R. Morishima, Numerical analysis and experiment of composite sandwich T-joints sub-jected to pulling load, Comp. Struct, vol.94, pp.229-238, 2011.

P. Sheahen, L. Betsuch, T. Holcombe, and B. Baron, Robust composite sandwich structures, Proceedings of the 1998 39th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference and Exhibit and AIAA/ASME/AHS Adaptive Structures Forum. Part 1, vol.3, pp.20-23, 1998.

J. Feldhusen, C. Warkotsch, and A. Kempf, Development of a mechanical technology for joining sandwich elements, J. Sand. Struct. Mat, vol.11, pp.471-486, 2009.

U. V. Turaga and C. T. Sun, Failure Modes and Load Transfer in Sandwich T-Joints, J. Sand. Struct. Mater, vol.2, pp.225-245, 2000.

J. Frank, B. Filippi, and . Levenetz, Optimum Joint Design for High-Temperature Honeycomb Panels, SAE Trans, vol.68, pp.658-664, 1960.

, JSTORAccessed, 2020.

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

B. J. Kim and D. G. Lee, Development of a satellite structure with the sandwich T-joint, Comp. Struct, vol.92, pp.460-468, 2010.

E. Bozhevolnaya and A. Lyckegaard, Local effects at core junctions of sandwich structures under different types of loads, Comp. Struct, vol.73, pp.24-32, 2006.

S. S. Vel, V. Caccese, and H. Zhao, Elastic coupling effects in tapered sandwich panels with laminated anisotropic composite facings, J. Comp. Mater, vol.39, pp.2161-2183, 2005.

O. T. Thomsen and J. R. Vinson, Modeling of tapered sandwich panels using a high-order sandwich theory formulation, AIAA J, vol.40, pp.1867-1875, 2002.

S. K. Kuczma and A. J. Vizzini, Failure of sandwich to laminate tapered composite structures, AIAA J, vol.37, pp.227-231, 1999.

C. Gin-boay, S. Leong-keey, and C. Lee-soon, Stress distribution in sandwich beams under tension, vol.45, pp.195-204, 1999.

J. D. Stromsoe, Modeling of in-plane crushed honeycomb cores with applications to rampdown sandwich structure closures, 2011.

J. R. Candia, Theoretical and experimental study of the tapered zone in asymmetrical sandwich structures. PhD Academia Politechnica Aeronautica, 2003.

, ESA PSS-03-1202 Insert Design Handbook

. Mil-hdbk-23a, Structural Sandwich Composites, Departement of Defense USA, 1974.

W. G. Youngquist and E. W. Kuenzi, Stresses Included in a Sandwich Panel by Load Applied at an Insert, Forest, vol.5, 1955.

O. T. Thomsen, Sandwich plates with 'through-the-thickness' and 'fully potted' inserts: evalua-tion of differences in structural performance, Comp. Struct, vol.40, pp.159-174, 1997.

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.

G. Qi, L. Ma, and S. Wang, Modeling and reliability of insert in composite pyramidal lattice truss core sandwich panels, Comp. Struct, vol.221, p.110888, 2019.

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

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

J. D. Rodriguez-ramirez, B. Castanie, and C. Bouvet, Experimental and numerical analysis of the shear nonlinear behaviour of Nomex honeycomb core: application to insert sizing, Comp. Struct, vol.193, pp.121-139, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01793199

N. Raghu, M. Battley, and T. Southward, 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, pp.393-408, 2018.

J. D. Rodríguez-ramírez, B. Castanié, and C. Bouvet, On the potting failure of inserts for sandwich panels: Review of defects and experimental analysis, Mech. Adv. Mat. Struct. On line

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

J. D. Rodriguez-ramirez, B. Castanie, and C. Bouvet, Damage mechanics modelling of the shear nonlinear behavior of Nomex honeycomb core. Application to sandwich beams, Adv. Mater. Struct, vol.27, pp.80-89, 2020.
URL : https://hal.archives-ouvertes.fr/hal-01880448

J. D. Rodriguez-ramirez, B. Castanie, and C. Bouvet, Insert of sandwich panels sizing through a failure mode map, Comp. Struct, vol.234, p.111724, 2020.

L. Mezeix, S. Dols, C. Bouvet, B. Castanié, J. P. Giavarini et al., Experimental analysis of impact and post-impact behaviour of inserts in Carbon sandwich structures, J. Sand. Struct. Mat, vol.21, pp.135-153, 2019.
URL : https://hal.archives-ouvertes.fr/hal-01828703

H. M. Hsiao, S. M. Lee, and R. A. Buyny, Core crush problem in manufacturing of composite sandwich structures: mechanisms and solutions, AIAA J, vol.44, pp.901-907, 2006.

K. F. Karlsson and B. T. Astrom, Manufacturing and applications of structural sandwich components, Comp. Part A, vol.28, pp.97-111, 1997.

D. A. Crump, J. M. Dulieu-barton, and J. Savage, The manufacturing procedure for aerospace secondary sandwich structure panels, J. Sand. Struct. Mat, vol.12, pp.421-447, 2010.

J. Kratz and P. Hubert, Vacuum bag only co-bonding prepreg skins to aramid honeycomb core. Part I. Model and material properties for core pressure during processing, Comp. Part A, vol.72, pp.228-238, 2015.

J. Kratz and P. Hubert, Vacuum-bag-only co-bonding prepreg skins to aramid honeycomb core. Part II. In-situ core pressure response using embedded sensors, Composites: Part A 72, pp.219-227, 2015.

S. S. Tavares, N. Caillet-bois, V. Michaud, and J. A. Månson, Non-autoclave processing of honeycomb sandwich structures: Skin through thickness air permeability during cure, Comp. Part A, vol.41, pp.646-652, 2010.

S. S. Tavares, V. Michaud, and J. A. Månson, Assessment of semi-impregnated fabrics in honeycomb sandwich structures, Comp. Part A, vol.41, pp.8-15, 2010.

S. Tavares, Y. Roulin, V. Michaud, and J. A. Månson, Hybrid processing of thick skins for honeycomb sandwich structures, Comp. Sci. Tech, vol.71, pp.183-189, 2011.

M. Anders, D. Zebrine, T. Centea, and S. R. Nutt, Process diagnostics for co-cure of sandwich struc-tures using in situ visualization, Comp. Part A, vol.116, pp.24-35, 2019.

L. Moretti, B. Castanié, G. Bernhart, and . Olivier, Characterization and modelling of cure-dependent properties and strains during composites manufacturing, J. Comp. Mater. On line
URL : https://hal.archives-ouvertes.fr/hal-02514952

L. Mezeix, A. Seman, M. N. Nasir, Y. Aminanda, A. Rivai et al., Spring-back simulation of unidirectional carbon/epoxy flat laminate composite manufactured through autoclave process, Comp. Struct, vol.124, pp.196-205, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01951243

M. Fiorina, A. Seman, B. Castanié, K. M. Ali, C. Schwob et al., Spring-in prediction for car-bon/epoxy aerospace composite structure, Comp. Struct, vol.168, pp.739-745, 2017.

G. Fernlund, Spring-in of angled sandwich panels, Comp. Sci.Tech, vol.65, pp.317-323, 2005.

E. Kappel, Spring-in of curved CFRP/foam-core sandwich structures, Comp. Struct, vol.128, pp.155-164, 2015.

E. Kappel, Spring-in of angled sandwich panels, Comp. Sci. Tech, vol.65, pp.317-323, 2005.

Y. Mahadik and K. Potter, Experimental investigation into the thermoelastic spring-in of curved sandwich panels, Comp. Part A, vol.49, pp.68-80, 2013.

R. and B. Heslehurst, Defects and Damage in Composite Materials and Structures, 2014.

M. E. Ibrahim, Nondestructive evaluation of thick-section composites and sandwich structures: a review, Comp. Part A, vol.64, pp.36-48, 2014.

J. S. Tomblin, L. Salah, J. M. Welch, and M. D. , , 2004.

, Pol-ymer matrix composites materials usage, design, and analysis, US Military Handbook 17-3F. Composite materials handbook volume, vol.3, 2002.

C. Duong and C. H. Wang, Composite Repairs, Theory and Design, 2007.

R. and B. Heslehurst, Engineered Repairs of Composite Structures, 2019.

K. Katnam, L. D. Silva, and T. Young, Bonded repair of composite aircraft structures: a review of scientific challenges and opportunities, Progr Aerosp Sci, vol.61, pp.26-42, 2013.

O. Balci, O. Çoban, M. Bora, E. Akagündüz, and E. Bülent-yalçin, Experimental investigation of single and repeated impacts for repaired honeycomb sandwich structures, Mat. Sci. Eng.: A, vol.682, pp.23-30, 2017.

H. Park and C. Kong, A study on low velocity impact damage evaluation and re-pair technique of small aircraft composite structure, Comp. Part A, vol.42, pp.1179-1188, 2011.

C. H. Wang and A. J. Gunnion, Optimum shapes of scarf repairs, Comp. Part A, vol.40, pp.1407-1418, 2009.

A. B. Harman and C. H. Wang, Improved design methods for scarf repairs to highly strained com-posite aircraft structure, Comp. Struct, vol.75, pp.132-144, 2006.

F. Campbell, The case against honeycomb core, 49th international society for the advancement of manufacturing and process engineering (SAMPE) symposium, 2004.

J. H. Fogarty, Honeycomb core and myth of moisture ingression, Appl Comp. Mat, vol.17, pp.293-307, 2010.

W. C. Jackson and T. K. O'brien, Water Intrusion in Thin-Skinned Composite Honeycomb Sandwich Structures, J. Am. Helicopter Soc, vol.35, pp.31-37, 1990.

D. M. Cise and R. S. Lakes, Moisture ingression in honeycomb core sandwich panels: directional aspects, J. Comp. Mat, vol.31, pp.2249-2263, 1997.

E. Kececi and R. Asmatulu, Effects of moisture ingressions on mechanical properties of honeycomb-structured fiber composites for aerospace applications, Int. J. Adv. Manuf. Technol, vol.88, pp.459-470, 2017.

M. E. Tuttle, Moisture diffusion in honeycomb core sandwich composites. ICCM-17, 2009.

H. G. Allen, Panneaux et volumes obtenus par construction sandwich: Evolution et developpe-ment, Mat. Tech, vol.77, pp.11-18, 1989.

H. Junkers, Abdeckung für Flugzeugtragflächen und dergleichen, vol.310040, p.1915

V. Karman, T. H. Stock, P. British, and . Patent, , vol.235, 1924.

N. J. Hoff, A short history of the development of airplane structures, Am. Sci, vol.34, pp.370-388, 1946.

N. J. Hoff and S. E. Mautner, Sandwich construction in gliders, Soaring magazine, 1944.

A. J. Kinloch and N. Bruyne, Biographical Memoirs of Fellows of the Royal Society, vol.46, pp.127-143, 1904.

, Groupement des industries Aéronautiques Française): L'industrie aéronautique et spatiale française 1907-1982, tome I: 1907-1947 Anthologie des deux ouvrages de, GIFAS, 1934.

J. P. Susainathan, F. Eyma, E. De-luycker, A. Cantarel, and B. Castanié, Manufacturing and quasi-static bending behavior of wood-based sandwich structures, Comp. Struct, vol.182, pp.487-504, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01657898

J. P. Susainathan, F. Eyma, E. De-luycker, A. Cantarel, C. Bouvet et al., Castanié, Experimental investigation of compression and compression after impact of wood-based sandwich structures, Comp. Struct, vol.220, pp.236-249, 2019.

E. Paroissien, M. Sartor, J. Huet, and F. Lachaud, Analytical two-dimensional model of a hybrid (bolted/bonded) single-lap joint, J. Aircraft, vol.44, pp.573-582, 2007.
URL : https://hal.archives-ouvertes.fr/hal-01494327

E. Paroissien and F. Lachaud, On the Potential Static Strength of Hybrid (Bolted/Bonded) Lap Joints with Functionally Graded Adhesives, AIAA J, vol.57, pp.4093-4103, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02164341

L. M. Smith and C. W. Rogers, Bonded Bomber B-58, SAE Trans, vol.70, pp.477-486, 1962.

J. Hamer, Honeycomb structure and its application to the Concorde rudder, Composites, vol.2, pp.242-245, 1971.

J. C. Joanides, Mach 3 wing structures stiffened skin versus sandwich, SAE Trans, vol.69, pp.167-178, 1961.

W. A. Spivak, XB-70A Mach 3 Design and Operating Experience, SAE Trans, vol.75, pp.114-126, 1967.

D. B. Rogerson, Technological advancements resulting from XB-70 performance re-quirements, SAE Trans, vol.74, pp.604-625, 1966.

D. R. Jenkins and T. R. Landis, VALKYRIE, North American Mach 3 superbomber, 2004.

R. A. Davis, S. D. Elrod, and D. T. Lovell, Titanium honeycomb structure

P. W. Merlin, Mach 3 Legend Design and Development of the Lockheed Blackbird

P. W. Merlin, Design and development of the blackbird: challenges and lessons learned, Proceedings of the 47th AIAA Aerospace Sciences Meeting Including The New Horizons Forum and Aerospace Exposition, 2009.

S. Pace, Loockeed SR-71 blackbird, 2004.

W. G. Roeseler, B. Sarh, and M. U. Kismarton, Composite structures: the first 100 years. ICCM 16 Kyoto, 2007.

K. B. Armstrong, D. W. Stevens, and J. Alet, 25-years of use of Nomex Honeycomb in floor panels and sandwich structures, Proceedings of the 50-Years of Advanced Materials or Back to the Future, SAMPE Conference, pp.17-39, 1994.

J. Pora, Composite Materials in the Airbus A380. From History to Future -ICCM-13 Beijing, 2001.

A. S. Herrmann, P. C. Zahlen, and I. Zuardy, Sandwich structures technology in commercial aviation, Present Applications and Future Trends, Sandwich Structures 7: Advancing with Sandwich Structures and Materials, pp.13-26

L. F. Vosteen and . Hadcock, Composite chronicles: a study of the lessons learned in the development, Production, and Service of composite structures, NASA Contractor Report, vol.4620, 1994.

D. Chaumette, Proceedings of the 23rd Structures, Structural Dynamics and Materials Conference, 1982.

G. A. Mr and . Wardle, My aircraft design, Structures And Manufacturing Research And Development Core Career Overview

E. H. Hooper, Starship: A model for future design, Materiaux et Tech, vol.77, pp.23-30, 1989.

L. F. Vosteen and R. N. Hadcock, Composite chronicles: a study of the lessons learned in the development, production, and service of composite structures, 1994.

K. Retz, The road to large scale composite application on wide body commercial transports, SAE Trans, vol.112, pp.270-280, 2003.

D. M. Mcgowan and D. R. Ambur, Compression response of a sandwich fuselage keel panel with and without damage, NASA Technical Memorandum 110302, 1997.

T. H. Walker, P. J. Minguet, B. W. Flynn, D. J. Carbery, G. D. Swanson et al., Advanced technology composite fuselage-structural performance, NASA CR, vol.4732, 1997.

D. R. Tenney, J. G. Davis, R. B. Pipes, and N. Johnston, NASA composite materials de-velopment: lessons learned and future challenges, NATO AVT, vol.164, 2009.

D. R. Tenney, J. G. Davis, N. Johnston, R. Byron-pipes, and J. F. Mcguire, Structural framework for flight: nasa's role in development of advanced composite materials for aircraft and space structures

. Jec-composite, Elixir Aircraft receives EASA CS-23 certification, 2020.

M. Robert, Les composites aéronautiques: 40 ans déjà et ce n'est que le début !!! Colloque Composite de TOULOUSE du 3 octobre, 2007.

. Aerospatiale, Materiaux composites: dans la grande mutation des structures. DCT 1135, 1986.

J. Cinquin, Utilisation des matériaux composites à matrice organique en aéronautique. Les avantages, les points durs. Vision du futur. Entretiens de l'AMAC. ENS Cachan, vol.19, 2013.

J. Cinquin, Les composites en aérospatiale. Techniques de l'Ingénieur

F. Edited-by, P. Pascal, S. Navarro, J. Marguet, and . Ferrero, Study of medium velocity impacts on the lower surface of helicopter blades, pp.159-181, 2017.

F. Pascal, A. Rogani, B. Mahmoud, P. Navarro, S. Marguet et al., Impact damage predic-tion in thin woven composite laminates -Part II: Application to normal and oblique impacts on sandwich structure, Comp. Struct, vol.190, pp.43-51, 2018.

I. Tawk, J. Aubry, P. Navarro, J. 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

P. Rauch, M. Gervais, P. Cranga, A. Baud, J. Hirsch et al., The design, development and testing of a new blade concept, pp.542-555, 2011.

P. Beaumier, B. Van-der, K. Wall, C. Pengel, M. Kessler et al., From erato basic research to the blue edge rotor blade: an example of virtual engineering, Proceedings of the Rotorcraft Virtual Engineering Conference, pp.8-10, 2016.

M. Filippi, E. Zappino, E. Carrera, and B. Castanié, Effective static and dynamic finite element modeling of a double swept composite rotor blade, J. Am. Hel. Soc. On

S. Brosselin, Eurocopter Tiger's advanced technology: a comparison with the Longbow Apache, Vertiflite, vol.41, pp.18-22, 1995.

I. Ullah, J. Elambasseril, M. Brandt, and S. Feih, Performance of bio-inspired Kagome truss core structures under compression, Comp. Struct, vol.118, pp.294-302, 2014.

R. Sachse, D. Fernandez, Y. Klett, and P. Middendorf, Integral, disruptive, and multifunctional aircraft structures, Revolutionizing Aircraft Materials and Processes, vol.2020

L. Komarnitskiy, L'étude des structures pliables ainsi que la préparation des essais sta-tiques et dynamiques sur celles-ci Master thesis report, 2006.

S. Heimbs and F. , Dynamic Failure of Composite and Sandwich Structures. Solid Mechanics and Its Applications, vol.192, 2013.

B. Han, Z. Zhang, Q. Zhang, Q. Zhang, T. J. Lub et al., Recent advances in hybrid lattice-cored sandwiches for enhanced multifunctional performance, Ext. Mech. Let, vol.10, pp.58-69, 2017.

T. K. O'brien and I. L. Paris, Exploratory investigation of failure mechanisms in transition regions between solid laminates and X-cor truss sandwich, Comp. Struct, vol.57, pp.189-204, 2002.

T. M. Krivanek and B. C. Yount, Composite payload fairing structural architecture assessment and selection, SAMPE Conference, 2012.

A. Shahdin, L. Mezeix, C. Bouvet, J. Morlier, and Y. Gourinat, Fabrication and mechanical testing of glass fiber entangled sandwich beams: a comparison with honeycomb and foam sandwich beams, Comp. Struct, vol.90, pp.404-412, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01851889

J. L. Grenestedt, Development of a new peel-stopper for sandwich structures, Comp. Sci. Tech, vol.61, pp.1555-1559, 2001.

J. Jakobsen, E. Bozhevolnaya, and O. T. Thomsen, New peel stopper concept for sandwich struc-tures, Comp. Sci. Tech, vol.67, pp.3378-3385, 2007.

J. Jakobsen, O. T. Thomsen, J. H. Andreasen, and E. Bozhevolnaya, Crack deflection analyses of different peel stopper design for sandwich structure, Comp. Sci. Tech, vol.69, pp.870-875, 2009.

A. D. Ferreira, P. R. Nóvoa, A. Torres, and . Marques, Multifunctional material systems: a state-of-the-art review, Comp. Struct, vol.151, pp.3-35, 2016.

B. Smyers, W. Baron, and J. Marshall, Structural-electric characterization of a load bearing antenna RF laminate, Proceedings of the COMPTEST 2008 Conference

L. Boermans, Research on sailplane aerodynamics at delft university of technology. Recent and present developments, Proceedings of the Netherlands Association of Aeronautical Engineers (NVvL), 2006.

Y. Zhang, C. Su, Z. Ni, J. Zang, and L. Chen, A multifunctional lattice sandwich structure with energy harvesting and nonlinear vibration control, Comp. Struct, vol.221, p.110875, 2019.

D. T. Queheillalt, G. Carbajal, G. P. Peterson, and H. N. Wadley, A multifunctional heat pipe sandwich panel structure, Int. J. Heat Mass Trans, vol.51, pp.312-326, 2008.

C. Wang, M. Chen, H. Lei, Z. Zeng, K. Yao et al., Frequencyselective-surface based sandwich structure for both effective load bearing and customizable microwave ab-sorption, Comp. Struct, vol.235, p.111792, 2020.

P. Bollen, N. Quiévy, C. Bailly, I. Huynen, and T. Pardoen, Multifunctional sandwich structure for electromagnetic absorption and mechanical performances, Proceedings of the 16th European Conference on Composite Materials, ECCM, 2014.

H. Chen, X. P. Li, Y. Y. Chen, and G. L. Huang, Wave propagation and absorption of sandwich beams containing interior dissipative multi-resonators, Ultrasonics, vol.76, pp.99-108, 2017.

R. Kothari and C. T. Sun, Design and analysis of multifunctional structures with embedded elec-tronics for thermomechanical loads, J. Sand. Struct. Mat, vol.14, pp.734-752, 2012.

Y. Zhang, J. Ma, A. K. Singh, L. Cao, J. Seo et al., Multi-functional structural lithium-ion battery for electric vehicles, J. Int. Mat. Sys. Struct, vol.28, pp.1603-1613, 2017.

L. Zhang, S. Lu, X. Wang, K. Ma, H. Liu et al., Manufacture and mechanical properties of sandwich structure-battery composites, J. Polym. Eng, vol.39, pp.838-843, 2019.

J. P. Thomas, S. M. Qidwai, W. R. Pogue, and G. T. Pham, Multifunctional structurebattery com-posites for marine systems, J. Comp. Mat, vol.47, pp.5-26, 2013.

C. Wang, M. Chen, K. Yao, X. Zhu, and D. , Fang, Fire protection design for composite lattice sandwich structure, Sci.Eng. Comp. Mat, vol.24, pp.919-927, 2017.

A. F. Johnson, C. M. Kindervater, and K. E. Jackson, Multifunctional design concepts for energy absorbing composite fuselage sub-structures, Annual Forum Proceedings, vol.2, pp.1115-1128, 1997.

M. M. Angelo, J. Gallman, V. Johnson, E. Garcia, J. Tai et al., N + 3 Small Commercial Efficient and Quiet Transportation for Year

A. Tropis, Composite Structure: Evolution & Future Challenges in Proceedings of the Workshop on New Modelling Strategies of Damage and Failure of Composite Structures: A Breakthrough in Composite Sizing, 2014.

M. Schubert, S. Perfetto, A. Dafnis, D. Mayer, and H. Atzrodt, Development and design of mul-tifunctional lightweight structures for satellite applications, Proceedings of the International Astronautical Congress, IAC, 2018.