.. Campagne-d-'essai-expérimentale, , p.92

.. Description-du-plan-d-'expérience, , p.92

.. Post-traitement, , p.96

.. Modèle-numérique, , p.99

I. Modèle-volumique, , p.99

.. Modèle-volumique-volume-elémentaire-représentatif, , p.101

M. and .. , , p.106

P. , , p.106

.. Construction-de-l-'algorithme,

.. Prise-en-compte-de-la-plasticité, , p.111

.. Post-traitement-des-résultats-et-comparaison-aux-résultats-numériques, , p.111

M. and .. , , p.112

.. Loi-matériau-du-surmoulage, , p.112

C. Maillage, , p.112

.. Loi-d-'interface, , p.113

R. , , p.113

.. Modèle-multicouche, , p.114

.. Limites-de-la-méthode-analytique, , p.114

É. and .. , 115 6. Conclusion 117 D On peut également ajouter que la précision et les faibles dimensions de la texturation CMT rendent son dimensionnement plus aisé et plus précis si on la compare à d'autres technologies plus efficaces en termes de temps de cycle mais plus aléatoires dans leurs résultats. La technologie CMT n'est, de plus, pas la seule interface à laquelle cette méthode s'applique. Celleci sera d'autant plus valable que le motif géométrique est fin et régulier ce qui

V. Chapitre,

&. Bilan, G. Perspectives-dessin-de, and . Doré,

, Gravure sur bois, vol.19

. Fumé-d-'une-planche-hors-texte-publiée-dans-l-'ingénieux and . Hidalgo-don,

L. Traduction-de and . Viardot, Hachette (Paris), 1863. Tome II, p.52

, Réserve des livres rares, BnF

, Bibliothèque nationale de France Bilan & Perspectives ?

P. Cognard and . Traité-de-génie-mécanique, Collage des Métaux -Généralités, Caractéristiques. Rapport technique BM7620, 2003.

O. Volkersen, Die Niektraftverteilung in Zugbeanspruchten mit Konstanten Laschenquerschritten, Luftfahrtforschung, issue.1, pp.15-41, 1938.

L. Demarkles, Investigation on the use of rubber analogue in the study of the stress distribution in riveted and cemented joint, 1955.

F. Erdogan and M. Ratwani, Stress Distribution in Bonded Joints *, Journal of Composite Materials, vol.5, issue.3, pp.378-393, 1971.
DOI : 10.1177/002199837100500308

M. Goland and E. Reissner, The stresses in cemented joints, Journal of Applied Mechanics, issue.1, pp.1117-1144

L. Hart-smith, Adhesive-Bonded Double-Lap Joints, NASA, 1973.

L. Hart-smith, Adhesive-Bonded Single-Lap Joints, NASA, 1973.

D. Oplinger, A layered beam theory for single-lap joints, US Army Materials Technology, 1991.

Y. Tsaï and J. Morton, Three-dimensional deformations in a single-lap joint, The Journal of Strain Analysis for Engineering Design, vol.11, issue.2, pp.137-145, 1994.
DOI : 10.1016/0167-8442(90)90010-W

A. Crocombe and D. Bigwood, Elastic analysis and engineering design formulae for bonded joints, International Journal of Adhesion and Adhesives, vol.9, pp.229-242, 1989.

I. Smeltzer, . Ss, and E. Klang, Analysis method for inelastic, adhesively bonded joints with anisotropic adherends, Proceedings of the American Society for Composites 18th Technical Conference, p.paper, 2003.

F. Delale and F. Erdogan, Stresses in adhesive bonded joint: a closed-form solution, Journal of Composite Materials, pp.249-271, 1981.

I. Ashcroft, Fatigue Load Conditions. Handbook of Adhesion Technology, 2011.

R. Adams, Structural adhesive joints in engineering, 1997.
DOI : 10.1007/978-94-009-5616-2

R. Adams and J. Harris, Strength prediction of bonded single lap joints by nonlinear finite element methods, International Journal of Adhesion and Adhesives, vol.4, pp.65-78, 1984.

A. Griffith, The Phenomena of Rupture and Flow in Solids, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol.221, issue.582-593, pp.163-198, 1921.
DOI : 10.1098/rsta.1921.0006

G. Irwin, Analysis of stresses and strains near the end of a crack traversing a plate, Journal of Applied Mechanics, vol.24, pp.361-364, 1957.

D. Dillard, Observations of Decreased Fracture Toughness for Mixed Mode Fracture Testing of Adhesively Bonded Joints, Journal of Adhesion Science and Technology, vol.2, issue.10-11, pp.1515-1530, 2009.
DOI : 10.1520/JAI12955

M. Charalambides, On the analysis of mixed mode failure, International Journal of Fracture, vol.54, pp.269-291, 1992.

S. Hashemi, Corrections needed in double-cantilever beam tests for assessing the interlaminar failure of fibre-composites, Journal of Materials Science Letters, vol.10, issue.2, pp.125-129, 1989.
DOI : 10.1007/BF00730701

, 21

A. Kinloch and S. Shaw, Adhesion and Adhesives: Science and Technology, 1987.
DOI : 10.1007/978-94-015-7764-9

Y. Zhang, Mode I and II fracture behavior of adhesively-bonded pultruded composite joints, Engineering Fracture Mechanics, vol.77, issue.1, pp.128-143, 2010.
DOI : 10.1016/j.engfracmech.2009.09.015

G. Cherepanov, Crack propagation in continuous media, Journal of Applied Mathematics and Mechanics, vol.31, issue.3, pp.503-512, 1967.
DOI : 10.1016/0021-8928(67)90034-2

J. Rice, A Path Independent Integral and the Approximate Analysis of Strain Concentration by Notches and Cracks, Journal of Applied Mechanics, pp.379-386, 1968.

F. Matthews, Composites, Joining of. Encyclopedia of Materials: Science and Technology, pp.1391-1395, 2001.

C. Bonnet, Compréhension des mécanismes de coupe lors du perçage à sec de l'empilage Ti6Al4V/Composite fibre de carbone, 2010.

R. Zitoune, Délaminage lors du perçage d'un composite carbone-époxy, 2013.

W. Jingze, A micromechanical relaxation model of composite bolted connections based on viscoelastic theory. Composite Structures, pp.14-25, 2016.

B. Huiyong, Time-dependent behaviour of composite beams with blind bolts under sustained loads, Journal of Constructional Steel Research, vol.112, pp.196-207, 2015.

A. Scattina, Investigation of creep phenomenon on composite material for bolt connections. Composite Structures, pp.378-383, 2015.

Z. Kapid?i?, Fatigue bearing failure of CFRP composite in biaxially loaded bolted joints at elevated temperature. Composite Structures, pp.298-307, 2015.

H. Huth, Influence of Fastener flexibility on the prediction of load transfer and fatigue life for multiple row joints. Fatigue in mechanically fastened composite and metallic joints, ASTM STP 927, pp.221-250, 1986.

, Bibliographie

E. Paroissien, Contributionaux assemblages hybides (Boulonnés/Collés) -Application aux jonctions aéronautiques, Thèse de l'université de Toulouse III, 2006.

. Gore, Essais sur panneaux raidis à raidisseurs rivés, 1990.

. Boeing, Unpublished Reports of the BOEING Corporation

D. Cope, T. Lacy, and . Structures, Stress intensity determination in lap joints with mechanical fasteners, 41st Structures, Structural Dynamics, and Materials Conference and Exhibit, 1368.
DOI : 10.2514/6.2000-1368

K. Koffi, Etude numérique et expérimentale des éclissages de structures aéronautiques soumis à des chargements de traction et flexion, 1999.

M. Niu, Aircraft structural design, 1988.

T. Swift, Development of the fail-safe design features of the DC-10. Damage Tolerance in Aircraft, pp.164-214, 1971.

M. Tate and S. Rosenfeld, Analytical and experimental investigation of bolted joints, NACA, 1947.

M. Tate and S. Rosenfeld, Preliminary Investigation of the loads carried by individual bolts in Bolted Joints, 1946.

F. Irasarri, Stratégies de calcul pour l'optimisation multiobjectif des structures composites. Mechanics [physics.med-ph]. Université Paul sabatier -Toulouse III, 2009.

L. Hart-smith, Bonded-bolted composite joints, Journal of Aircraft, vol.22, issue.11, pp.993-1000, 1985.
DOI : 10.2514/3.45237

L. Lunsford, Stress Analysis of Bonded Joints Applied Polymer Symposia, N° 3, pp.57-73, 1966.

G. Kelly, . Kth, and S. Stockholm, Joining of Carbon Fibre Reinforced Plastics for Automotive Applications, 2004.

E. Paroissien and . Hybrid, Applied to Aeronautic Parts: Analytical One-Dimensional Model of a Single-Lap Joint, 6th International Conference on Integrated Design and Manufacturing in Mechanical Engineering, 2006.

E. Paroissien, . Asme-/-asce-/-ahs-/, and . Structures, Applied to Aeronautic Parts: Analytical Two- Dimensional Model of a Single-Lap Joint, Structural Dynamics, and Materials Conference, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01494327

H. Ji, Fatigue characteristics of stainless steel pin-reinforced composite hat joints, Composite Structures, vol.108, issue.0, pp.49-56, 2014.
DOI : 10.1016/j.compstruct.2013.08.040

D. Cartiaé, Delamination of Z-pinned carbon fibre reinforced laminates, Composites Science and Technology, vol.66, issue.6, pp.855-861, 2006.
DOI : 10.1016/j.compscitech.2004.12.018

V. Tomashevskii, A methode of calculating technological regimes of transversal reinforcement of composites wih short fibre microparticles, Mekhanika Kompozitnyth Materialov, 1989.

G. Frietas, Service tough composite structures using z-fibre process, Proceedings of the 9th DoD/NASA/FAA conference on fibrous composites, 1991.

A. Mouritz, Review of z-pinned composite laminates, Composites Part A: Applied Science and Manufacturing, vol.38, issue.12, pp.2383-2397, 2007.
DOI : 10.1016/j.compositesa.2007.08.016

V. Dantuluri, Cohesive modeling of delamination in Z-pin reinforced composite laminates, Composites Science and Technology, vol.67, issue.3-4, pp.616-631, 2006.
DOI : 10.1016/j.compscitech.2006.07.024

F. Bianchi and X. Zhang, A cohesive zone model for predicting delamination suppression in z-pinned laminates, Composites Science and Technology, vol.71, issue.16, pp.1898-1907, 2011.
DOI : 10.1016/j.compscitech.2011.09.004

F. Bianchi and X. , Predicting mode-II delamination suppression in z-pinned laminates, Composites Science and Technology, vol.72, issue.8, pp.924-932, 2012.
DOI : 10.1016/j.compscitech.2012.03.003

H. Cui, Bridging micromechanisms of Z-pin in mixed mode delamination. Composite Structures 93, pp.2685-2695, 2011.

H. Cui, Mixed mode cohesive law for Z-pinned composite analyses, Computational Materials Science, vol.75, pp.60-68, 2013.
DOI : 10.1016/j.commatsci.2013.04.006

S. Heimbs and A. Nogueira, Failure behaviour of composite T-joints with novel metallic arrow-pin reinforcement. Composites Structures, pp.16-28, 2014.

P. Hilton and L. Nguyen, A New Method of Laser Beam Induced Surface Modification Using the Surfi- Sculpt® process, Proceedings of 3rd Pacific Conference on Applications of Lasers and Optics, 2008.

C. Earl, Parameter Influence on Surfi-Sculpt Processing Efficiency, Physics Procedia, vol.39, pp.327-335, 2012.
DOI : 10.1016/j.phpro.2012.10.045

X. Wang, Realization and Experimental Analysis of Electron Beam Surfi-Sculpt on Ti-6Al-4V Alloy, Rare Metal Materials and Engineering, vol.43, issue.4, pp.819-822, 2014.
DOI : 10.1016/S1875-5372(14)60091-6

X. Wang, Effect of forming parameters on electron beam Surfi-Sculpt protrusion for Ti???6Al???4V, Materials & Design, vol.76, pp.202-206, 2015.
DOI : 10.1016/j.matdes.2015.03.065

J. Burn and P. Hilton, Producing Surface Features with a 200 W Yb-fibre Laser and the Surfi- Sculpt® Process, Physics Procedia, vol.12, pp.529-536, 2011.

W. Tu, Multi-region mesh free method for Comeld??? joints, Computational Materials Science, vol.48, issue.3, pp.481-489, 2010.
DOI : 10.1016/j.commatsci.2010.02.009

W. Tu, Optimisation of the protrusion geometry in Comeld??? joints, Composites Science and Technology, vol.71, issue.6, pp.868-876, 2011.
DOI : 10.1016/j.compscitech.2011.02.001

H. Zhang, Study on the strength prediction model of Comeld composites joints, Composites Part B: Engineering, vol.43, issue.8, pp.3310-3317, 2012.
DOI : 10.1016/j.compositesb.2012.01.085

N. Li, A micro-macro finite element model for failure prediction of Comeld TM joints, Composites Science and Technology, vol.117, pp.334-341, 2015.
DOI : 10.1016/j.compscitech.2015.07.001

W. Xiong, The effect of composite orientation on the mechanical properties of hybrid joints strengthened by surfi-sculpt, Composite Structures, vol.134, pp.587-592, 2015.
DOI : 10.1016/j.compstruct.2015.08.083

, 69 Fronius, inventor. Verfahren zur Herstellung einer Struktur an einer Oberfläche eines metallischen Werkstücks, p.506217, 2009.

A. , , pp.57-187, 2002.

L. Wittwer and N. Enzinger, Simulating the welding process of pin structures. SYSWELD Forum, 2011.

G. Somosk?i and I. Török, CMT pin ?Define the shape of the welded pin through welding parameters, Production Processes and Systems, pp.47-56, 2013.

S. Ucsnik, Pin-based hybrid joining. 5th Anniversary of the Institute of Carbon Composite, 2014.

S. Ucsnik, Experimental investigation of a novel hybrid metal???composite joining technology, Composites Part A: Applied Science and Manufacturing, vol.41, issue.3, pp.369-374, 2010.
DOI : 10.1016/j.compositesa.2009.11.003

S. Ucsnik, Composite to composite joint with lightweight metal reinforcement for enhanced damage tolerance, pp.16-16, 2014.

J. Lotte and A. , ???Smart Multi Material Joint" ??? Hybrid Joint of Steel and FRP, Materials Science Forum, vol.825, issue.826
DOI : 10.4028/www.scientific.net/MSF.825-826.314

L. Asp, Innovative composites titanium joints, 13th Japanese-European Symposium on Composite Materials, 2013.

P. Parkes, Static strength of metal-composite joints with penetrative reinforcement, Composite Structures, vol.118, pp.250-256, 2014.
DOI : 10.1016/j.compstruct.2014.07.019

P. Parkes, Growth of damage in additively manufactured metal?composite joints, ECCM15 -15th European Conference on Composite Materials, pp.24-28, 2012.

J. Meyer and D. Johns,

D. Graham, The development and scalability of a high strength, damage tolerant, hybrid joining scheme for composite???metal structures, Composites Part A: Applied Science and Manufacturing, vol.64, pp.11-24, 2014.
DOI : 10.1016/j.compositesa.2014.04.018

P. Houldcroft, Unshielded and short-time arc processes. Welding Processes, p.101, 1967.

M. Grujicic, An overview of the polymer-to-metal direct-adhesion hybrid technologies for loadbearing automotive components Journal of materials processing technology I 97, pp.363-373, 2008.

F. Awaja, Adhesion of polymers, Progress in Polymer Science, vol.34, issue.9, pp.948-968, 2009.
DOI : 10.1016/j.progpolymsci.2009.04.007

M. Füllbrandt, Work of adhesion between metals and polymers on a macro and microscopic scale, ECCM16 -16TH European Conference on Composite Materials

A. Gasparin, An experimental method for the determination of metal?polymer adhesion. Thin Solid Film, pp.356-362, 2013.

. Lucchetta, Aluminum sheet surface roughness correlation with adhesion in polymer metal hybrid overmolding. CIRP Annals -Manufacturing Technology 60, pp.559-562, 2011.

W. Kim, Evaluation of mechanical interlock effect on adhesion strength of polymer???metal interfaces using micro-patterned surface topography, International Journal of Adhesion and Adhesives, vol.30, issue.6, pp.408-417, 2010.
DOI : 10.1016/j.ijadhadh.2010.05.004

O. Ochoa-pulman and K. Vaidya, Mechanisms of interfacial adhesion in metal?polymer composites ? Effect of chemical treatment. Composite: Part A 42, pp.906-915, 2011.

C. Jung, The effects of energetic ion irradiation on metal-to-polymer adhesion. Radiation Physics a,d chemistery, pp.919-922, 2012.

M. Grujicic, Computational analysis of injection-molding residual-stress development in direct-adhesion polymer-to-metal hybrid body-in-white components, Journal of Materials Processing Technology, vol.203, issue.1-3, pp.19-36, 2008.
DOI : 10.1016/j.jmatprotec.2007.09.059

M. Grujicic, Computational feasibility analysis of direct-adhesion polymer-to-metal hybrid technology for load-bearing body-in-white structural components, Journal of Materials Processing Technology, vol.195, issue.1-3, pp.282-298, 2008.
DOI : 10.1016/j.jmatprotec.2007.05.016

M. Grujicic, Suitability analysis of a polymer???metal hybrid technology based on high-strength steels and direct polymer-to-metal adhesion for use in load-bearing automotive body-in-white applications, Journal of Materials Processing Technology, vol.209, issue.4, pp.1877-1890, 2009.
DOI : 10.1016/j.jmatprotec.2008.04.050

A. Needleman, A Continuum Model for Void Nucleation by Inclusion Debonding, Journal of Applied Mechanics, vol.54, issue.3, pp.525-531, 1987.
DOI : 10.1115/1.3173064

S. Socrate, Mechanics of microvoid nucleation and growth in high-strength metastable austenitic steels, 1995.

D. Gay, Composite Materials: Design and application, Boca Raton, 2003.
DOI : 10.1201/9781420031683

M. Arif and F. Meraghni, In situ damage mechanisms investigation of PA66/GF30 composite: Effect of relative humidity, 2014. aéronautiques. Revue des Composites et des Materiaux Avances, pp.487-495, 2013.
DOI : 10.1016/j.compositesb.2013.11.001
URL : https://hal.archives-ouvertes.fr/hal-01513629

R. Zitoune, Experimental and numerical analysis on drilling of carbon fibre reinforced plastic and aluminium stacks, Composite Structures, vol.146, issue.20, pp.148-158, 2016.
DOI : 10.1016/j.compstruct.2016.02.084
URL : https://hal.archives-ouvertes.fr/hal-01620291

S. Pinho, Physically based failure models and criteria for laminated fibre-reinforced composites with emphasis on fibre kinking. Part II: FE implementation, Composites Part A: Applied Science and Manufacturing, vol.37, issue.5, pp.766-777, 2006.
DOI : 10.1016/j.compositesa.2005.06.008
URL : http://spiral.imperial.ac.uk/bitstream/10044/1/243/1/Physically-based%20failure%20models%20and%20criteria%20for%20laminated%20fibre%20%20reinfoced%20composites%20with%20emphasis%20on%20fibre%20kinking%20part%20I%20development.pdf

, 101

P. Satthumnuwong, Approche expérimentale et numérique de la rupture des assemblages collés de composites stratifiés, 2011.

L. Iannucci, Dynamic delamination modelling using interface elements. Computers and Structures 84, pp.1029-1048, 2006.

, 103

T. Carlberger and U. Stigh, An explicit FE-model of impact fracture in an adhesive joint, Engineering Fracture Mechanics, vol.74, issue.14, pp.2247-2262, 2007.
DOI : 10.1016/j.engfracmech.2006.10.016

S. Marzi, A Rate-Dependent, Elasto-Plastic Cohesive Zone Mixed-Mode Model for Crash Analysis, 2009.

D. Morin, A new cohesive element for structural bonding modelling under dynamic loading, International Journal of Impact Engineering, vol.53, pp.94-105, 2013.
DOI : 10.1016/j.ijimpeng.2012.02.003

L. , LS Dyna theory manual (revision: 4689), Livermore: LIVERMORE SOFTWARE TECHNOLOGY CORPORATION (LSTC, vol.2014

A. Turon, An engineering solution for mesh size effects in the simulation of delamination using cohesive zone models, Engineering Fracture Mechanics, vol.74, issue.10, pp.1665-1682, 2007.
DOI : 10.1016/j.engfracmech.2006.08.025

K. Park and G. Paulino, Cohesive Zone Models: A Critical Review of Traction-Separation Relationships Across Fracture Surfaces, Applied Mechanics Reviews, vol.3, issue.6, pp.1-20, 2011.
DOI : 10.1016/j.engfracmech.2012.02.007

, 109

D. Gay, Composite Materials: Design and Application, 2003.
DOI : 10.1201/9781420031683

A. Crocombe and D. Bigwood, Non-linear adhesive bonded joint design analyses, International Journal of Adhesion and Adhesives, vol.10, pp.31-41, 1990.

M. Jürgens, Influence of an optimized 3D-reinforcement layout on the structural mechanics of cobonded CFRP joints, ECCM16 -16TH EUROPEAN CONFERENCE ON COMPOSITE MATERIALS, 2014.

M. Jürgens and A. Nogueira, Influence of an optimized 3D reinforcement layout on the structural mechanics of co-bonded CFRP joints, ECCM16 -16TH EUROPEAN CONFERENCE ON COMPOSITE MATERIALS, 2014.

S. Heimbs and A. M. , Investigation of Static and Dynamic Failure Behaviour of Composite T-Joints, IV ECCOMAS Thematic Conference on the Mechanical Response of Composites, 2013.