K. Jayakrishna, V. R. Kar, M. Sultan, and M. Rajesh, Materials selection for aerospace components, Sustain. Compos. Aerosp. Appl, pp.1-18, 2018.

G. Marsh, Metals shed weight to compete, Mater Today, vol.4, pp.80212-80213, 2001.

E. A. Starke and J. T. Staley, Application of modern aluminium alloys to aircraft, Fundam. Alum. Metall, pp.747-83, 2011.

M. Holmes, Aerospace looks to composites for solutions, Reinf Plast, vol.61, pp.237-278, 2017.

G. Scarselli, C. Corcione, F. Nicassio, and A. Maffezzoli, Adhesive joints with improved mechanical properties for aerospace applications, Int J Adhes Adhes, vol.75, pp.174-80, 2017.

A. Higgins, Adhesive bonding of aircraft structures, Int J Adhes Adhes, vol.20, pp.367-76, 2000.

F. De-florio, D. Florio, and F. , Type Certification. Airworthiness, pp.85-122, 2016.

C. Ashforth and L. Ilcewicz, 3.1 Certification and Compliance Considerations for Aircraft Products with Composite Materials, Compr. Compos. Mater. II, pp.1-25, 2018.

Z. Zhuguo, Z. Yingchun, and O. Xupo, Study on Key Certification Issues of Composite Airframe Structures for Commercial Transport Airplane, Procedia Eng, vol.17, pp.247-57, 2011.

X. Junchi, Overview of Certification of Aeroplane Takeoff and Landing Performance on Contaminated Runways, Procedia Eng, vol.17, pp.13-23, 2011.

N. Carrere, , 2017.

G. Dolev and O. Ishai, Mechanical Characterization of Adhesive Layer in-situ and as Bulk Material, J Adhes, vol.12, pp.283-94, 1981.

P. Davies, L. Sohier, J. Y. Cognard, A. Bourmaud, D. Choqueuse et al., Influence of adhesive bond line thickness on joint strength, Int J Adhes Adhes, vol.29, pp.724-760, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00494459

A. A. Mudassar and S. Butt, Improved Digital Image Correlation method, Opt Lasers Eng SAFRAN COMPOSITES / IRDL -Jaime DESTOUESSE VILLA, vol.9, pp.156-67, 2016.

A. J. Comer, K. B. Katnam, W. F. Stanley, and T. M. Young, Characterising the behaviour of composite single lap bonded joints using digital image correlation, Int J Adhes Adhes, vol.40, pp.215-238, 2013.

H. Zhou, D. Fernando, G. Chen, and S. Kitipornchai, The quasi-static cyclic behaviour of CFRP-toconcrete bonded joints: An experimental study and a damage plasticity model, Eng Struct, vol.153, pp.43-56, 2017.

J. Kosmann, O. Klapp, D. Holzhüter, M. J. Schollerer, A. Fiedler et al., Measurement of epoxy film adhesive properties in torsion and tension using tubular butt joints, Int J Adhes Adhes, vol.83, pp.50-58, 2018.

X. Wang, J. Ahn, C. Kaboglu, L. Yu, and B. Blackman, Characterisation of composite-titanium alloy hybrid joints using digital image correlation, Compos Struct, vol.140, pp.702-713, 2016.

W. K. Chiu and R. Jones, Unified constitutive model for thermoset adhesive, FM73, Int J Adhes Adhes, vol.15, pp.131-137, 1995.

A. D. Crocombe, Modelling and predicting the effects of test speed on the strength of joints made with FM73 adhesive, Int J Adhes Adhes, vol.15, pp.21-28, 1995.

P. Majda and J. Skrodzewicz, A modified creep model of epoxy adhesive at ambient temperature, Int J Adhes Adhes, vol.29, pp.396-404, 2009.

R. Mahnken, Simulation of strength difference coupled to softening in elasto-plasticity for adhesive materials, Int J Adhes Adhes, vol.32, pp.1-14, 2012.

P. Jousset and M. Rachik, Implementation, identification and validation of an elasto-plasticdamage model for the finite element simulation of structural bonded joints, Int J Adhes Adhes, vol.50, pp.107-125, 2014.

A. Ilioni, C. Badulescu, N. Carrèere, P. Davies, and D. Thévenet, A viscoelastic-viscoplastic model to describe creep and strain rate effects on the mechanical behaviour of adhesively-bonded assemblies, Int J Adhes Adhes, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01701201

C. J. Brotherhood, B. W. Drinkwater, and S. Dixon, The detectability of kissing bonds in adhesive joints using ultrasonic techniques, Ultrasonics, vol.41, pp.156-158, 2003.

S. Zheng, J. Vanderstelt, J. R. Mcdermid, and J. R. Kish, Non-destructive investigation of aluminum alloy hemmed joints using neutron radiography and X-ray computed tomography, NDT E Int

M. Kemal-apalak, R. Davies, G. Apalak, and Z. , Analysis and design of adhesively-bonded double-containment corner j oints, J Adhes Sci Technol, vol.9, pp.267-93, 1995.

C. C. Chamis and P. Murthy, Simplified Procedures for Designing Adhesively Bonded Composite Joints, J Reinf Plast Compos, vol.10, pp.29-41, 1991.

H. Käufer, Design of constructive adhesive joints for the optimization of manufacture and strength, Konstruktion, vol.36, pp.371-378, 1984.

J. Mauricea, J. Y. Cognard, R. Creac'hcadec, P. Davies, L. Sohier et al., Characterization and modelling of the 3D elastic-plastic behaviour of an adhesively bonded joint under monotonic tension/compression-shear loads: Influence of three cure cycles, J Adhes Sci Technol, vol.27, pp.165-81, 2013.

L. Da-silva, P. Das-neves, R. D. Adams, A. Wang, and J. K. Spelt, Analytical models of adhesively bonded joints-Part II: Comparative study, Int J Adhes Adhes, vol.29, pp.331-372, 2009.

L. Da-silva, P. Das-neves, R. D. Adams, and J. K. Spelt, Analytical models of adhesively bonded joints-Part I: Literature survey, Int J Adhes Adhes, vol.29, pp.319-349, 2009.

N. Stein, P. L. Rosendahl, and W. Becker, Homogenization of mechanical and thermal stresses in functionally graded adhesive joints, Compos Part B Eng, vol.111, pp.279-93, 2017.

M. Cabello, J. Zurbitu, J. Renart, A. Turon, and F. Martínez, A general analytical model based on elastic foundation beam theory for adhesively bonded DCB joints either with flexible or rigid adhesives, Int J Solids Struct, 2016.

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

L. Da-silva, R. Lima, and R. Teixeira, Development of a Computer Program for the Design of Adhesive Joints, J Adhes, vol.85, pp.889-918, 2009.

E. Dragoni, L. Goglio, and F. Kleiner, Designing bonded joints by means of the JointCalc software, Int J Adhes Adhes, vol.30, pp.267-80, 2010.

I. Oliveira, P. Teixeira, F. Ferreira, and A. Reis, Inverse Characterization of Material Constitutive Parameters for Dynamic Applications, Procedia Eng, vol.114, pp.784-91, 2015.

R. D. Adams, J. Comyn, and W. Wc, Structural adhesive joints in engineering, 1997.

D. Safran-composites-/-irdl--jaime and . Villa,

A. Ilioni, C. Badulescu, N. Carrèere, P. Davies, and D. Thévenet, A viscoelastic-viscoplastic model to describe creep and strain rate effects on the mechanical behaviour of adhesively-bonded assemblies, Int J Adhes Adhes, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01701201

J. A. Nelder and R. Mead, A Simplex Method for Function Minimization, Comput J, vol.7, pp.308-321, 1965.

J. C. Lagarias, J. A. Reeds, M. H. Wright, and . Pew, Convergence Properties of the Nelder-Mead Simplex Method in Low Dimensions, SIAM J Optim, vol.9, pp.112-147, 1998.

J. Lemaitre, J. L. Chaboche, A. Benallal, and R. Desmorat, Mécanique des matériaux solides. Dunod, 2009.

E. H. Andrews and A. Stevenson, Fracture energy of epoxy resin under plane strain conditions, J Mater Sci, vol.13, pp.1680-1688, 1978.

J. Y. Cognard, C. Badulescu, M. J. Créac'hcadec, R. Carrère, N. Vedrine et al., On modelling the behaviour of a ductile adhesive under low temperatures, Int J Adhes Adhes, vol.48, pp.119-148, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00905269

R. Mahnken and M. Schlimmer, Simulation of strength difference in elasto-plasticity for adhesive materials, Int J Numer Methods Eng, vol.63, pp.1461-77, 2005.

C. Badulescu and N. Carrère, Rapport confidentiel -Etude sur la caractérisation d'un adhésif et d'un composite au travers d'essai de type Arcan, 2017.

F. Wickelmaier and C. Schmid, A Matlab function to estimate choice model parameters from paired-comparison data, Behav Res Methods, Instruments, Comput, vol.36, pp.29-40, 2004.

D. Safran-composites-/-irdl--jaime and . Villa,

A. Norme, Association française de normalisation) NF A 09-350. Vocabulaire utilisé en émission acoustique, Norme AFNOR, 1984.

S. Patil, B. Karkare, and S. Goyal, Corrosion induced damage detection of in-service RC slabs using acoustic emission technique, Constr Build Mater, vol.156, pp.123-153, 2017.

H. Taura and K. Nakayama, Behavior of acoustic emissions at the onset of sliding friction, Tribol Int, vol.123, pp.155-60, 2018.

E. D. Dzaye, D. Schutter, G. Aggelis, and D. G. , Study on mechanical acoustic emission sources in fresh concrete, Arch Civ Mech Eng, vol.18, pp.742-54, 2018.

J. Kaiser, An investigation into the occurrence of noises in tensile tests, or a study of acoustic phenomena in tensile tests, 1950.

C. Barile, C. Casavola, G. Pappalettera, and P. K. Vimalathithan, Experimental wavelet analysis of acoustic emission signal propagation in CFRP, Eng Fract Mech, 2018.

W. Zhou, W. Zhao, Y. Zhang, and Z. Ding, Cluster analysis of acoustic emission signals and deformation measurement for delaminated glass fiber epoxy composites, Compos Struct, vol.195, pp.349-58, 2018.

R. De-oliveira and M. A. , Health monitoring of FRP using acoustic emission and artificial neural networks, Comput Struct, vol.86, pp.367-73, 2008.

M. Stackler, Etude des endommagements dans les assemblages composites collés, 2015.

N. Godin, S. Deschanel, and J. Courbon, Émission acoustique: identification de la signature acoustique des mécanismes d'endommagement et prévision de la durée de vie, Matériaux Tech, vol.97, pp.35-42, 2009.

N. Godin, P. Reynaud, and G. Fantozzi, Acoustic Emission and Durability of Composite Materials, 2018.

, Sensors GP. Sensor Summary Chart, 2012.

H. V. Ravindra, Y. G. Srinivasa, and R. Krishnamurthy, Acoustic emission for tool condition monitoring in metal cutting, Wear, vol.212, pp.78-84, 1997.

L. Assi, V. Soltangharaei, R. Anay, P. Ziehl, and F. Matta, Unsupervised and supervised pattern CHAPITRE IV. CARACTERISATION DES MECANISMES D'ENDOMMAGEMENT of acoustic emission signals during early hydration of Portland cement paste

, Cem Concr Res, vol.103, pp.216-241, 2018.

R. Kravchuk and E. N. Landis, Acoustic emission-based classification of energy dissipation mechanisms during fracture of fiber-reinforced ultra-high-performance concrete, Constr Build Mater, vol.176, pp.531-539, 2018.

N. Godin, S. Huguet, R. Gaertner, and L. Salmon, Clustering of acoustic emission signals collected during tensile tests on unidirectional glass/polyester composite using supervised and unsupervised classifiers, NDT E Int, vol.37, pp.253-64, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00474933

L. Li, S. V. Lomov, X. Yan, and V. Carvelli, Cluster analysis of acoustic emission signals for 2D and 3D woven glass/epoxy composites, Compos Struct, vol.116, pp.286-99, 2014.

M. Diakhate, E. Bastidas-arteaga, M. Pitti, R. Schoefs, and F. , Cluster analysis of acoustic emission activity within wood material: Towards a real-time monitoring of crack tip propagation, Eng Fract Mech, vol.180, pp.254-67, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01613043

X. He, D. Cai, and P. Niyogi, Laplacian score for feature selection, Adv. Neural Inf. Process. Syst, pp.507-521, 2006.

D. L. Davies and D. W. Bouldin, A cluster separation measure, IEEE Trans Pattern Anal Mach Intell, pp.224-231, 1979.

N. Bolshakova, F. Azuaje, and P. Cunningham, An integrated tool for microarray data clustering and cluster validity assessment, Bioinformatics, vol.21, pp.451-456, 2004.

S. Aranganayagi and K. Thangavel, Clustering categorical data using silhouette coefficient as a relocating measure, Conf. Comput. Intell. Multimed. Appl. 2007. Int. Conf, vol.2, pp.13-20, 2007.

P. J. Rousseeuw and L. Kaufman, Finding groups in data, pp.111-113, 1990.

L. Li, S. V. Lomov, and X. Yan, Correlation of acoustic emission with optically observed damage in a glass/epoxy woven laminate under tensile loading, Compos Struct, vol.123, pp.45-53, 2015.

J. Minvielle, Utilisation couplée de l'émission acoustique et de la tomographie pour étudier les mécanismes de déformation et d'endommagement d'assemblages collés, 2018.

D. Safran-composites-/-irdl--jaime and . Villa,

L. P. Canal, R. Sarfaraz, G. Violakis, J. Botsis, V. Michaud et al., Monitoring strain gradients in adhesive composite joints by embedded fiber Bragg grating sensors, Compos Struct, vol.112, pp.241-248, 2014.

B. S. Kawasaki, K. O. Hill, D. C. Johnson, and Y. Fujii, Narrow-band Bragg reflectors in optical fibers, Opt Lett, vol.3, pp.66-74, 1978.

K. O. Hill and G. Meltz, Fiber Bragg grating technology fundamentals and overview, J Light Technol, vol.15, pp.1263-76, 1997.

R. Guyard, D. Leduc, Y. Lecieux, and C. Lupi, Superposition of fiber Bragg and LPG gratings for embedded strain measurement, Comptes Rendus Phys, vol.17, pp.1027-1064, 2016.

R. Ramly, W. Kuntjoro, and M. Rahman, Using Embedded Fiber Bragg Grating (FBG) Sensors in Smart Aircraft Structure Materials, Procedia Eng, vol.41, pp.600-606, 2012.

S. N. Economidou and D. Karalekas, Optical sensor-based measurements of thermal expansion coefficient in additive manufacturing, Polym Test, vol.51, pp.117-138, 2016.

L. Cheng and P. M. Toet, Innovative Fiber Bragg Grating Sensors for Highly Demanding Applications, Opto-Mechanical Fiber Opt. Sensors, pp.175-209, 2018.

G. Kaur, R. S. Kaler, and N. Kwatra, Investigations on highly sensitive fiber Bragg gratings with different grating shapes for far field applications, Opt -Int J Light Electron Opt, vol.131, pp.483-492, 2017.

R. Liu, D. Liang, and A. Asundi, Small diameter fiber Bragg gratings and applications, Measurement, vol.46, pp.3440-3448, 2013.

M. Manuvinakurake, U. Gandhi, U. Mangalanathan, and M. Nayak, Design, fabrication and testing of fiber bragg grating based fixed guided beam pressure sensor, Optik (Stuttg), vol.158, pp.1063-72, 2018.

H. Sas, FBG polyamide information sheet, 2017.

L. Sorensen, The response of embedded FBG sensors to non-uniform strains in CFRP composites during processing and delamination, p.154, 2007.

M. Mieloszyk and W. Ostachowicz, Moisture contamination detection in adhesive bond using embedded FBG sensors, Mech Syst Signal Process, vol.84, pp.1-14, 2017.

D. Safran-composites-/-irdl--jaime and . Villa,

Y. Qi, D. Jiang, S. Ju, and J. Zhang, Investigation of strain history in fast and conventional curing epoxy matrix composites by FBGs, Compos Sci Technol, vol.159, pp.18-24, 2018.

N. M. Larson and F. W. Zok, Insights from in-situ X-ray computed tomography during axial impregnation of unidirectional fiber beds, Compos Part A Appl Sci Manuf, vol.107, pp.124-158, 2018.

J. Y. Cognard, C. Badulescu, M. J. Créac'hcadec, R. Carrère, N. Vedrine et al., On modelling the behaviour of a ductile adhesive under low temperatures, Int J Adhes Adhes, vol.48, pp.119-148, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00905269

F. Li, Y. Du, X. Sun, and W. Zhao, Sensing performance assessment of twisted CFRP with embedded fiber Bragg grating sensors subjected to monotonic and fatigue loading, Sensors Actuators A Phys, vol.271, pp.153-61, 2018.

C. H. Tan, F. R. Mahamd-adikan, Y. G. Shee, and B. K. Yap, Non-destructive fiber Bragg grating based sensing system: Early corrosion detection for structural health monitoring, Sensors Actuators A Phys, vol.268, pp.61-68, 2017.

A. , Standard test method for:Apparent Shear Strenght of Single-Lap-Joint Adhesively Bonded Metal Specimens by Tension Loading (Metal -to -Metal), pp.1-5, 1999.

N. Carrere, Prediction of the process induced stress in bonded structures, AB2017 4th Int. Conf. Struct. Adhes. Bond, p.152, 2017.

D. Delpueyo, M. Grédiac, X. Balandraud, and C. Badulescu, Investigation of martensitic microstructures in a monocrystalline Cu-Al-Be shape memory alloy with the grid method and infrared thermography, Mech Mater, vol.45, pp.34-51, 2012.

D. L. Lupi, P. , and C. , Architecture of optical fiber sensor for the simultaneous measurement of axial and radial strains, Smart Mater Struct, vol.22, p.75002, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01005277

D. Safran-composites-/-irdl--jaime and . Villa,