L. J. Gibson and M. F. Ashby, Cellular solids: structure and properties, 1999.

A. Monti, «Elaboration et caractérisation mécanique d'une structure composite sandwiche à base de constituants naturels, 2017.

B. J. , «Matériaux composites : comportement mécanique et analyse des structures,» chez 4éme édition, 2005.

P. F. Sommerhuber, T. Wang, and A. Krause, «Wood-plastic composites as potential applications of recycled plastics of electronic waste and recycled particleboard, Journal of cleaner production, vol.121, pp.176-185, 2016.

P. Wambua and J. , Ivens et I. Verpoest, «Natural fibres: can they replace glass in fibre reinforced plastics?, » Composites science and technology, vol.63, pp.1259-1264, 2003.

M. Ben-ameur, A. E. Mahi, J. Rebiere, M. Abdennadher, and M. Haddar, «Damping analysis of unidirectional carbon/flax fiber hybrid composites, International Journal of Applied Mechanics, vol.10, issue.05, p.1850050, 2018.

L. Yan, B. Kasal, and L. Huang, «A review of recent research on the use of cellulosic fibres, their fibre fabric reinforced cementitious, geo-polymer and polymer composites in civil engineering, » Composites Part B: Engineering, vol.92, pp.94-132, 2016.

K. Charlet, C. Baley, C. Morvan, J. P. Jernot, M. Gomina et al., «Characteristics of Hermès flax fibres as a function of their location in the stem and properties of the derived unidirectional composites, Composites Part A: Applied Science and Manufacturing, vol.38, issue.8, pp.1912-1921, 2007.

S. Alix, E. Philippe, A. Bessadok, L. Lebrun, C. Morvan et al., «Effect of chemical treatments on water sorption and mechanical properties of flax fibres, Bioresource Technology, vol.100, issue.20, pp.4742-4749, 2009.

J. Mirbagheri, M. Tajvidi, and J. C. , Hermanson et I. Ghasemi, «Tensile properties of wood flour/kenaf fiber polypropylene hybrid composites, Journal of Applied Polymer Science, vol.105, issue.5, pp.3054-3059, 2007.

N. N. Bonnia, S. H. Ahmad, I. Zainol, A. A. Mamun, M. D. Beg et al., «Mechanical properties and environmental stress cracking resistance of rubber toughened polyester/kenaf composite, » eXPRESS Polymer Letters, vol.4, issue.2, pp.55-61, 2010.

P. V. Joseph, M. S. Rabello, L. H. Mattoso, K. Joseph, and S. Thomas, «Environmental effects on the degradation behaviour of sisal fibre reinforced polypropylene composites, Composites Science and Technology, Vols. %1 sur %262, pp.1357-1372, 2002.

U. K. Dwivedi and N. Chand, «Influence of MA-g-PP on abrasive wear behaviour of chopped sisal fibre reinforced polypropylene composites, Vols. %1 sur %2209, pp.5371-5375, 2009.

K. Okubo, T. Fujii, and Y. Yamamoto, «Development of bamboo-based polymer composites and their mechanical properties, Composites Part A: Applied science and manufacturing, vol.35, issue.3, pp.377-383, 2004.

A. Porras and A. Maranon, «Development and characterization of a laminate composite material from polylactic acid (PLA) and woven bamboo fabric, Composites Part B: Engineering, vol.43, issue.7, pp.2782-2788, 2012.

F. Z. Arrakhiz, M. Malha, R. Bouhfid, K. Benmoussa, A. Qaiss et al., flexural and torsional properties of chemically treated alfa, coir and bagasse reinforced polypropylene, Composites Part B: Engineering, vol.47, pp.35-41, 2013.

Y. Li and K. L. Pickering, The effect of chelator and white rot fungi treatments on long hemp fibre-reinforced composites,» Composites Science and Technology, Vols. %1 sur %269 (7-8), pp.1265-1270, 2009.

V. Placet, «Characterization of the thermo-mechanical behaviour of Hemp fibres intended for the manufacturing of high performance composites, Composites Part A: Applied Science and Manufacturing, vol.40, issue.8, pp.1111-1118, 2009.

S. L. Gao and E. Mäder, «Jute/polypropylene composites I. Effect of matrix modification, Composites Science and Technology, Vols. %1 sur %266 (7-8), pp.952-963, 2006.

B. A. Acha, M. M. Reboredo, and N. E. Marcovich, Creep and dynamic mechanical behavior of PP-jute composites: Effect of the interfacial adhesion, Composites Part A: Applied Science and Manufacturing, vol.38, issue.6, pp.1507-1516, 2007.

E. Bodros and C. Baley, Study of the tensile properties of stinging nettle fibres (Urtica dioica, vol.64, pp.2143-2145, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00399279

A. Lefeuvre, A. Bourmaud, and C. Baley, «Optimization of the mechanical performance of UD flax/epoxy composites by selection of fibres along the stem, Composites Part A: Applied Science and Manufacturing, vol.77, pp.204-208, 2015.

L. M. Vieira, J. C. Santos, T. H. Panzera, J. C. Rubio, and F. Scarpa, «Novel fibre metal laminate sandwich composite structure with sisal woven core, » Industrial Crops and Products, vol.99, pp.189-195, 2017.

J. R. Dutra, S. L. Filho, A. L. Christoforo, T. H. Panzera, and F. Scarpa, «Investigations on sustainable honeycomb sandwich panels containing eucalyptus sawdust, Piassava and cement particles,» Thin-Walled Structures, vol.143, p.106191, 2019.

M. R. Silva, R. V. Pinheiro, A. L. Christoforo, T. H. Panzera, and F. A. Lahr, Hybrid Sandwich Particleboard Made with Sugarcane, P{\'\i}nus Taeda Thermally Treated and Malva Fibre from Amazon, vol.21, 2018.

S. Broccolo, R. Palumbo, M. Campana, Y. Dobah, F. Scarpa et al., Kirigami inspired natural fibre cellular structures for future vibroacoustics applications,» chez MEDYNA 2017: 2nd Euro-Mediterranean Conference on Structural Dynamics and Vibroacoustics, 2017.

P. R. Oliveira, A. M. Bonaccorsi, T. H. Panzera, A. L. Christoforo, and F. Scarpa, Sustainable sandwich composite structures made from aluminium sheets and disposed bottle caps, » Thin-Walled Structures, vol.120, pp.38-45, 2017.

P. R. Oliveira, T. H. Panzera, R. T. Freire, and F. Scarpa, Sustainable sandwich structures made from bottle caps core and aluminium,» Thin-Walled Structures, vol.130, pp.362-371, 2018.

P. R. Oliveira, M. May, T. H. Panzera, F. Scarpa, and S. Hiermaier, Composites Part B: Engineering, vol.199, p.108165, 2020.

W. Sujaritjun, P. Uawongsuwan, W. Pivsa-art, and H. Hamada, Mechanical property of surface modified natural fiber reinforced PLA biocomposites,» Energy Procedia, vol.34, pp.664-672, 2013.

A. K. Mohanty, A. Wibowo, M. Misra, and L. T. , Effect of process engineering on the performance of natural fiber reinforced cellulose acetate biocomposites, Composites Part A: applied science and manufacturing, vol.35, issue.3, pp.363-370, 2004.

K. G. Satyanarayana and G. G. , Arizaga et F. Wypych, «Biodegradable composites based onlignocellulosic fibers-An overview,» Progress in polymer science, vol.34, pp.982-1021, 2009.

J. M. Raquez, M. Deléglise, M. F. Lacrampe, and P. Krawczak, Thermosetting (bio) materials derived from renewable resources: A critical review,» Progress in polymer science, vol.35, pp.487-509, 2010.

J. Schuster, Q. Govignon, and S. Bickerton, Processability of biobased thermoset resins and flax fibres reinforcements using vacuum Assisted resin transfer moulding, vol.4, pp.1-11, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02070637

P. Aumjaud, J. E. Fieldsend, M. A. Boucher, K. E. Evans, and C. W. Smith, Multi-objective optimisation of viscoelastic damping inserts in honeycomb sandwich structures,» Composite Structures, vol.132, pp.451-463, 2015.

E. Kandare, P. Luangtriratana, and B. K. Kandola, «Fire reaction properties of flax/epoxy laminates and their balsa-core sandwich composites with or without fire protection, Composites Part B: Engineering, vol.56, pp.602-610, 2014.

X. Cheng, K. Wei, R. He, Y. Pei, and D. Fang, «The equivalent thermal conductivity of lattice core sandwich structure: a predictive model, » Applied Thermal Engineering, vol.93, pp.236-243, 2016.

M. Osei-antwi, J. Castro, A. P. Vassilopoulos, and T. Keller, «Shear mechanical characterization of balsa wood as core material of composite sandwich panels, » Construction and Building Materials, vol.41, pp.231-238, 2013.

A. Monti, A. E. Mahi, Z. Jendli, and L. Guillaumat, Experimental and finite elements analysis of the vibration behaviour of a bio-based composite sandwich beam, Composites Part B: Engineering, vol.110, pp.466-475, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02408560

O. Castro, J. M. Silva, T. Devezas, A. Silva, and L. Gil, «Cork agglomerates as an ideal core material in lightweight structures, » Materials & Design, vol.31, issue.1, pp.425-432, 2010.

I. Alcântara, F. Teixeira-dias, and M. Paulino, «Cork composites for the absorption of impact energy,» Composite structures, vol.95, pp.16-27, 2013.

A. Malloum, Analyse des mécanismes d'endommagement et du comportement vibratoire d'un composite à constituants naturels dans un environnement hydrique,» phD thesis, 2019.

A. L. Duigou, J. M. Deux, P. Davies, and C. Baley, «PLLA/flax mat/balsa bio-sandwich manufacture and mechanical properties, » Applied Composite Materials, vol.18, issue.5, pp.421-438, 2011.

A. L. Duigou, J. M. Deux, P. Davies, and C. Baley, «PLLA/flax mat/balsa bio-sandwichenvironmental impact and simplified life cycle analysis,» Applied composite materials, Vols, pp.363-378, 2012.

A. Stocchi, L. Colabella, A. Cisilino, and V. Álvarez, «Manufacturing and testing of a sandwich panel honeycomb core reinforced with natural-fiber fabrics, » Materials & Design, vol.55, pp.394-403, 2014.

H. C. Cheng, F. Scarpa, T. H. Panzera, I. Farrow, and H. Peng, «Shear stiffness and energy absorption of auxetic open cell foams as sandwich cores, » physica status solidi (b), vol.256, p.1800411, 2019.

H. Abramovitch, M. Burgard, L. Edery-azulay, K. Evans, M. Hoffmeister et al., Smart tetrachiral and hexachiral honeycomb: Sensing and impact detection, vol.70, pp.1072-1079, 2010.

H. Daoud, A. E. Mahi, J. Rebiere, M. Taktak, and M. Haddar, «Characterization of the vibrational behaviour of flax fibre reinforced composites with an interleaved natural viscoelastic layer, » Applied acoustics, vol.128, pp.23-31, 2017.

A. Monti, A. E. Mahi, Z. Jendli, and L. Guillaumat, «Mechanical behaviour and damage mechanisms analysis of a flax-fibre reinforced composite by acoustic emission, Composites Part A: Applied Science and Manufacturing, vol.90, pp.100-110, 2016.

F. Ansari, L. A. Granda, R. Joffe, L. A. Berglund, and F. Vilaseca, «Experimental evaluation of anisotropy in injection molded polypropylene/wood fiber biocomposites, Composites Part A: Applied Science and Manufacturing, vol.96, pp.147-154, 2017.

S. Liang, H. Nouri, and E. Lafranche, «Thermo-compression forming of flax fibre-reinforced polyamide 6 composites: influence of the fibre thermal degradation on mechanical properties, Journal of materials science, vol.50, issue.23, pp.7660-7672, 2015.

H. Daoud, J. Rebiere, A. Makni, M. Taktak, A. Mahi et al., «Numerical and experimental characterization of the dynamic properties of flax fiber reinforced composites, International Journal of applied mechanics, vol.8, issue.05, p.1650068, 2016.

P. Lefebure and J. Burth, «Method for producing structures made of thermosetting composite materials by assembling composite constituent parts moulded by injection infusion of liquid resin, p.180, 2019.

J. Stiller, D. Nestler, E. Passler, F. Kempe, H. Watzig et al., «Modification of the thermoset injection moulding process for shaping to increase the fibre length in C/C-SiC ceramics produced by the LSI process, » chez Key Engineering Materials, Trans Tech Publ, pp.153-160, 2019.

A. Monti, A. E. Mahi, Z. Jendli, and L. Guillaumat, «Quasi-static and fatigue properties of a balsa cored sandwich structure with thermoplastic skins reinforced by flax fibres, Journal of Sandwich Structures & Materials, vol, vol.21, issue.7, pp.2358-2381, 2019.

S. Chaitanya and I. Singh, Processing of PLA/sisal fiber biocomposites using direct-and extrusion-injection molding, » Materials and Manufacturing Processes, vol.32, pp.468-474, 2017.

T. Cadu, M. Berges, and O. , Sicot et e. al, «What are the key parameters to produce a high-grade bio-based composite? Application to flax/epoxy UD laminates produced by thermocompression, Composites Part B: Engineering, vol.150, pp.36-46, 2018.

A. Mengual, D. Juarez, R. Balart, and S. Ferrandiz, «Mechanical characterization of composite materials based on pine needle residues processed by thermocompression, » Procedia Manufacturing, vol.13, pp.315-320, 2017.

A. Malloum, A. Mahi, and M. Idriss, The effects of water ageing on the tensile static and fatigue behaviors of greenpoxy--flax fiber composites, vol.53, pp.2927-2939, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02954708

J. Rion, Y. Leterrier, and J. A. , Månson, «Prediction of the adhesive fillet size for skin to honeycomb core bonding in ultra-light sandwich structures, Composites Part A: Applied Science and Manufacturing, vol.39, issue.9, pp.1547-1555, 2008.

J. Susainathan, F. Eyma, E. De-luycker, and A. , Cantarel et B. Castanie, «Experimental investigation of impact behavior of wood-based sandwich structures, Composites Part A: Applied Science and Manufacturing, vol.109, pp.10-19, 2018.

X. Tian, T. Liu, C. Yang, Q. Wang, and D. Li, «Interface and performance of 3D printed continuous carbon fiber reinforced PLA composites, Composites Part A: Applied Science and Manufacturing, vol.88, pp.198-205, 2016.

F. Rengier, A. Mehndiratta, H. Von-tengg-kobligk, C. M. Zechmann, R. Unterhinninghofen et al., «3D printing based on imaging data: review of medical applications, International journal of computer assisted radiology and surgery, vol.5, issue.4, pp.335-341, 2010.

S. V. Murphy and A. Atala, 3D bioprinting of tissues and organs, vol.32, p.773, 2014.

J. M. Lee, S. L. Sing, E. Y. Tan, and W. Y. Yeong, Bioprinting in cardiovascular tissue engineering: a review, vol.2, pp.27-36, 2016.

H. N. Chia and B. M. Wu, Recent advances in 3D printing of biomaterials, vol.9, p.4, 2015.

C. M. Ho, S. H. Ng, K. H. Li, and Y. J. Yoon, 3D printed microfluidics for biological applications,» Lab on a Chip, vol.15, pp.3627-3637, 2015.

J. Hiller and H. Lipson, «Design and analysis of digital materials for physical 3D voxel printing, Rapid Prototyping Journal, vol.15, issue.2, pp.137-149, 2009.

D. Raviv, W. Zhao, C. Mcknelly, A. Papadopoulou, A. Kadambi et al., Active printed materials for complex self-evolving deformations, » Scientific reports, vol.4, p.7422, 2014.

Q. Ge, A. H. Sakhaei, H. Lee, C. K. Dunn, N. X. Fang et al., Multimaterial 4D printing with tailorable shape memory polymers, vol.6, p.31110, 2016.

J. Deckers, J. Vleugels, and J. P. Kruth, Additive manufacturing of ceramics: a review, » Journal of Ceramic Science and Technology, vol.5, issue.4, pp.245-260, 2014.

Z. C. Eckel, C. Zhou, J. H. Martin, A. J. Jacobsen, W. B. Carter et al., «Additive manufacturing of polymer-derived ceramics, » Science, vol.351, pp.58-62, 2016.

D. Kim, S. H. Lee, S. Jeong, and J. Moon, «All-ink-jet printed flexible organic thin-film transistors on plastic substrates, » Electrochemical and Solid-State Letters, vol.12, issue.6, pp.195-197, 2009.

N. Saengchairat, T. Tran, and C. K. Chua, «A review: Additive manufacturing for active electronic components,» Virtual and Physical Prototyping, vol.12, pp.31-46, 2017.

H. W. Tan, T. Tran, and C. K. Chua, «A review of printed passive electronic components through fully additive manufacturing methods,» Virtual and Physical Prototyping, vol.11, pp.271-288, 2016.

S. Yuan, J. Bai, C. K. Chua, K. Zhou, and J. Wei, «Characterization of creeping and shape memory effect in laser sintered thermoplastic polyurethane, Journal of Computing and Information Science in Engineering, vol.16, issue.4, p.41007, 2016.

S. Yuan, J. Bai, C. Chua, J. Wei, and K. Zhou, «Material evaluation and process optimization of CNT-coated polymer powders for selective laser sintering, » Polymers, vol.8, issue.10, p.370, 2016.

S. J. Leigh, R. J. Bradley, C. P. Purssell, D. R. Billson, and D. A. Hutchins, «A simple, low-cost conductive composite material for 3D printing of electronic sensors, » PloS one, vol.7, issue.11, p.49365, 2012.

J. Y. Lee, Y. Wang, C. Y. Tang, and F. Huo, «Mesoporous Silica Gel-Based Mixed Matrix Membranes for Improving Mass Transfer in Forward Osmosis: Effect of Pore Size of Filler, » Scientific reports, vol.5, p.16808, 2015.

J. Y. Lee, S. Qi, X. Liu, Y. Li, F. Huo et al., «Synthesis and characterization of silica gelpolyacrylonitrile mixed matrix forward osmosis membranes based on layer-by-layer assembly, Separation and Purification Technology, vol.124, pp.207-216, 2014.

J. Y. Lee, Q. She, F. Huo, and C. Y. Tang, «Metal-organic framework-based porous matrix membranes for improving mass transfer in forward osmosis membranes, Journal of Membrane Science, vol.492, pp.392-399, 2015.

J. Y. Lee, C. Y. Tang, and F. Huo, «Fabrication of porous matrix membrane (PMM) using metalorganic framework as green template for water treatment, » Scientific reports, vol.4, p.3740, 2014.

T. N. Bitzer, Honeycomb technology: materials, design, manufacturing, applications and testing,» chez Springer Science & Business Media, 1997.

I. Masters and K. Evans, «Models for the elastic deformation of honeycombs,» Composite structures, vol.35, pp.403-422, 1996.

A. Sparavigna, «Phonons in conventional and auxetic honeycomb lattices, Physical Review B, vol.76, issue.13, p.134302, 2007.

Y. Hou, R. Neville, F. Scarpa, C. Remillat, B. Gu et al., «Graded conventional-auxetic Kirigami sandwich structures: Flatwise compression and edgewise loading, » Composites Part B: Engineering, vol.59, pp.33-42, 2014.

M. P. Hoang, «Homogénéisation analytique de structures en nid d'abeilles pour des plaques composites sandwich, 2015.

Y. Chen, T. Li, Z. Jia, F. Scarpa, C. W. Yao et al., «3D printed hierarchical honeycombs with shape integrity under large compressive deformations, » Materials & Design, vol.137, pp.226-234, 2018.

C. Lu, M. Qi, S. Islam, P. Chen, S. Gao et al., «Mechanical performance of 3D-printing plastic honeycomb sandwich structure, International Journal of Precision Engineering and Manufacturing-Green Technology, vol.5, issue.1, pp.47-54, 2018.

A. Abbadi, Y. Koutsawa, A. Carmasol, S. Belouettar, and Z. Azari, Experimental and numerical characterization of honeycomb sandwich composite panels,» Simulation Modelling Practice and Theory, vol.17, pp.1533-1547, 2009.

Z. Chen and N. Yan, «Investigation of elastic moduli of Kraft paper honeycomb core sandwich panels, Composites Part B: Engineering, vol.43, issue.5, pp.2107-2114, 2012.

K. E. Evans, A. Alderson, and F. R. Christian, «Auxetic two-dimensional polymer networks. An example of tailoring geometry for specific mechanical properties, Journal of the chemical society, vol.91, issue.16, pp.2671-2680, 1995.

L. J. Gibson, M. F. Ashby, G. Schajer, and C. Robertson, «The mechanics of two-dimensional cellular materials, » Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences, vol.382, pp.25-42, 1782.

W. Becker, «The in-plane stiffnesses of a honeycomb core including the thickness effect, » Archive of Applied Mechanics, vol.68, issue.5, pp.334-341, 1998.

W. Becker, «Closed-form analysis of the thickness effect of regular honeycomb core material,» Composite Structures, Vols, vol.1, pp.67-70, 2000.

J. Zhang, G. Lu, Z. Wang, D. Ruan, A. Alomarah et al., «Large deformation of an auxetic structure in tension: Experiments and finite element analysis,» Composite Structures, vol.184, pp.92-101, 2018.

J. Zhang, G. Lu, D. Ruan, and Z. Wang, «Tensile behavior of an auxetic structure: Analytical modeling and finite element analysis,», International Journal of Mechanical Sciences, vol.136, pp.143-154, 2018.

A. Alomarah, S. H. Masood, I. Sbarski, B. Faisal, Z. Gao et al., «Compressive properties of 3D printed auxetic structures: experimental and numerical studies,» Virtual and Physical Prototyping, pp.1-21, 2019.

F. Scarpa, G. Burriesci, and F. , Smith et B. Chambers, «Mechanical and electromagnetic behaviour of auxetic honeycomb structures, » Aeronautical Journal, vol.107, p.175, 1079.

T. Li and L. Wang, «Bending behavior of sandwich composite structures with tunable 3D-printed core materials,» Composite Structures, vol.175, pp.46-57, 2017.

Y. Hou, Y. H. Tai, C. Lira, F. Scarpa, J. R. Yates et al., «The bending and failure of sandwich structures with auxetic gradient cellular cores, Composites Part A: Applied Science and Manufacturing, vol.49, pp.119-131, 2013.

C. Lira and F. Scarpa, «Transverse shear stiffness of thickness gradient honeycombs, Composites Science and Technology, vol.70, issue.6, pp.930-936, 2010.

V. Dikshit, A. Nagalingam, Y. Yap, S. Sing, W. Yeong et al., «Investigation of quasi-static indentation response of inkjet printed sandwich structures under various indenter geometries, » Materials, vol.10, issue.3, p.290, 2017.

V. Dikshit, A. P. Nagalingam, Y. L. Yap, S. L. Sing, W. Y. Yeong et al., «Crack monitoring and failure investigation on inkjet printed sandwich structures under quasi-static indentation test, » Materials & Design, vol.137, pp.140-151, 2018.

V. Dikshit, A. P. Nagalingam, Y. L. Yap, S. L. Sing, W. Y. Yeong et al., «Quasi-static indentation analysis on three-dimensional printed continuous-fiber sandwich composites, Journal of Sandwich Structures & Materials, 2019.

V. Crupi, G. Epasto, and E. Guglielmino, «Collapse modes in aluminium honeycomb sandwich panels under bending and impact loading, » International Journal of Impact Engineering, vol.43, pp.6-15, 2012.

S. Zhu and G. B. Chai, «Damage and failure mode maps of composite sandwich panel subjected to quasi-static indentation and low velocity impact, » Composite structures, vol.101, pp.204-214, 2013.

F. Scarpa, L. G. Ciffo, and J. R. Yates, Dynamic properties of high structural integrity auxetic open cell foam,» Smart Materials and Structures, vol.13, p.49, 2003.

M. Bianchi and F. Scarpa, «Vibration transmissibility and damping behaviour for auxetic and conventional foams under linear and nonlinear regimes, » Smart Materials and Structures, vol.22, issue.8, p.84010, 2013.

Y. Ma, F. Scarpa, D. Zhang, B. Zhu, L. Chen et al., «A nonlinear auxetic structural vibration damper with metal rubber particles, » Smart Materials and Structures, vol.22, issue.8, p.84012, 2013.

P. Aumjaud, J. E. Fieldsend, M. A. Boucher, K. E. Evans, and C. W. Smith, Multi-objective optimisation of viscoelastic damping inserts in honeycomb sandwich structures,» Composite Structures, vol.132, pp.451-463, 2015.

J. Yang, J. Xiong, L. Ma, B. Wang, G. Zhang et al., «Vibration and damping characteristics of hybrid carbon fiber composite pyramidal truss sandwich panels with viscoelastic layers, Composite Structures, vol.106, pp.570-580, 2013.

C. Lira, F. Scarpa, and R. Rajasekaran, «A gradient cellular core for aeroengine fan blades based on auxetic configurations, Journal of Intelligent Material Systems and Structures, vol.22, issue.9, pp.907-917, 2011.

T. Strek, H. Jopek, and M. Nienartowicz, Dynamic response of sandwich panels with auxetic cores,» physica status solidi (b), vol.252, pp.1540-1550, 2015.

L. Boldrin, S. Hummel, F. Scarpa, D. D. Maio, C. Lira et al., «Dynamic behaviour of auxetic gradient composite hexagonal honeycombs, Composite Structures, vol.149, pp.114-124, 2016.

G. J. Murray and F. Gandhi, Auxetic honeycombs with lossy polymeric infills for high damping structural materials, vol.24, pp.1090-1104, 2013.

S. Masmoudi, «Comportement mécanique et caractérisation par implant piézoélectrique ultrasonore intégré d'un matériau composite, 2013.

M. Kersani, S. V. Lomov, A. W. Van-vuure, and A. , Bouabdallah et I. Verpoest, «Damage in flax/epoxy quasi-unidirectional woven laminates under quasi-static tension, Journal of composite materials, vol.49, issue.4, pp.403-413, 2015.

A. E. Mahi, «Contribution a la modelisation numerique et experimentale de l'endommagement par fissuration transverse des composites stratifies. Influence de la sequence d'empilement,» Phd thesis, 1991.

J. Rebiere, «Modélisation du champ des contraintes créé par des fissures de fatigue dans un composite stratifié carbone/polymère, 1992.

A. Petras and M. Sutcliffe, «Failure mode maps for honeycomb sandwich panels,» Composite structures, vol.44, pp.237-252, 1999.

I. M. Daniel, E. E. Gdoutos, K. A. Wang, and J. L. Abot, «Failure modes of composite sandwich beams, International journal of damage mechanics, vol.11, issue.4, pp.309-334, 2002.

D. Zenkert and M. Vikström, «Shear cracks in foam core sandwich panels: Nondestructive testing and damage assessment, Technology and Research, vol.14, issue.2, pp.95-103, 1992.

D. Zenkert and M. Burman, «Failure mode shifts during constant amplitude fatigue loading of GFRP/foam core sandwich beams, International Journal of Fatigue, vol.33, issue.2, pp.217-222, 2011.

F. Alila, Analyse de la tenue en fatigue de structures composites sandwich, 2017.

S. Masmoudi, A. Mahi, and S. Turki, «Fatigue behaviour and structural health monitoring by acoustic emission of E-glass/epoxy laminates with piezoelectric implant, » Applied Acoustics, vol.108, pp.50-58, 2016.

E. Maillet, C. Baker, G. N. Morscher, V. V. Pujar, and J. R. Lemanski, «Feasibility and limitations of damage identification in composite materials using acoustic emission, Composites Part A: Applied Science and Manufacturing, vol.75, pp.77-83, 2015.

A. E. Mahi, H. Daoud, J. L. Rebiere, I. Gimenez, M. Taktak et al., «Damage mechanisms characterization of flax fibers-reinforced composites with interleaved natural viscoelastic layer using acoustic emission analysis, Journal of Composite Materials, vol.53, issue.18, pp.2623-2637, 2019.

A. Bravo, L. Toubal, D. Koffi, and F. Erchiqui, «Characterization of tensile damage for a short birch fiber-reinforced polyethylene composite with acoustic emission, Int J Mater Sci, vol.3, issue.3, pp.79-89, 2013.

M. Bourchak, I. Farrow, I. Bond, C. Rowland, and F. Menan, Acoustic emission energy as a fatigue damage parameter for CFRP composites, » International Journal of Fatigue, vol.29, issue.3, pp.457-470, 2007.

M. B. Ameur, A. E. Mahi, J. Rebiere, I. Gimenez, M. Beyaoui et al., «Investigation and identification of damage mechanisms of unidirectional carbon/flax hybrid composites using acoustic emission, » Engineering Fracture Mechanics, p.106511, 2019.

A. E. Mahi, I. B. Salem, M. Assarar, R. Berbaoui, C. Poilane et al., «Analyse par emission acoustique de l endommagement des materiaux,» chez 10ème Congrès Français d'Acousitque, 2010.

M. Kersani, S. V. Lomov, A. W. Van-vuure, and A. , Bouabdallah et I. Verpoest, «Damage in flax/epoxy quasi-unidirectional woven laminates under quasi-static tension, Journal of composite materials, vol.49, issue.4, pp.403-413, 2015.

M. Aslan, «Investigation of damage mechanism of flax fibre LPET commingled composites by acoustic emission, Composites Part B: Engineering, vol.54, pp.289-297, 2013.

M. Habibi, G. Lebrun, and L. Laperrière, «Experimental characterization of short flax fiber mat composites: tensile and flexural properties and damage analysis using acoustic emission, Journal of materials science, vol.52, issue.11, pp.6567-6580, 2017.

S. Sikdar, P. Mirgal, S. Banerjee, and W. Ostachowicz, «Damage-induced acoustic emission source monitoring in a honeycomb sandwich composite structure, Composites Part B: Engineering, vol.158, pp.179-188, 2019.

A. Quispitupa, B. Shafiq, F. Just, and D. Serrano, Acoustic emission based tensile characteristics of sandwich composites,» Composites Part B: Engineering, Vols. %1 sur %235 (6-8), pp.563-571, 2004.

B. Shafiq and A. Quispitupa, «Fatigue characteristics of foam core sandwich composites, » International Journal of Fatigue, vol.28, issue.2, pp.96-102, 2006.

W. Roundi, A. E. Mahi, A. Gharad, and J. Rebiere, Acoustic emission monitoring of damage progression in glass/epoxy composites during static and fatigue tensile tests, » Applied Acoustics, vol.132, pp.124-134, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02954742

O. Faruk, A. K. Bledzki, H. Fink, and M. Sain, Biocomposites reinforced with natural fibers: 2000--2010,» Progress in polymer science, vol.37, pp.1552-1596, 2012.

A. Bourmaud, C. Morvan, A. Bouali, V. Placet, P. Perre et al., «Relationships between micro-fibrillar angle, mechanical properties and biochemical composition of flax fibers, » Industrial Crops and Products, vol.44, pp.343-351, 2013.

A. Lefeuvre, A. Bourmaud, C. Morvan, and C. Baley, «Elementary flax fibre tensile properties: correlation between stress-strain behaviour and fibre composition, » Industrial crops and products, vol.52, pp.762-769, 2014.

V. Placet, O. Cissé, and M. L. Boubakar, «Nonlinear tensile behaviour of elementary hemp fibres. Part I: Investigation of the possible origins using repeated progressive loading with in situ microscopic observations, Composites Part A: Applied Science and Manufacturing, vol.56, pp.319-327, 2014.

H. L. Bos, J. Müssig, M. J. Van-den, and . Oever, «Mechanical properties of short-flax-fibre reinforced compounds, Composites Part A: Applied Science and Manufacturing, vol.37, issue.10, pp.1591-1604, 2006.

L. Yan, N. Chouw, and K. Jayaraman, Flax fibres and its composites -A review,» Composites Part B: Engineering, vol.56, pp.296-317, 2014.

A. A. Nasir, A. I. Azmi, and A. N. Khalil, «Measurement and optimization of residual tensile strength and delamination damage of drilled flax fibre reinforced composites, » Measurement, vol.75, pp.298-307, 2015.

C. Baley and A. Bourmaud, «Average tensile properties of French elementary flax fibers, » Materials letters, vol.122, pp.159-161, 2014.

M. Khalfallah, B. Abbès, F. Abbès, Y. Q. Guo, V. Marcel et al., Innovative flax tapes reinforced Acrodur biocomposites: A new alternative for automotive applications,» Materials & Design, vol.64, pp.116-126, 2014.

L. Averous, Biodegradable multiphase systems based on plasticized starch: a review, vol.44, pp.231-274, 2004.

K. Oksman, M. Skrifvars, and J. F. Selin, Natural fibres as reinforcement in polylactic acid (PLA) composites,» Composites science and technology, vol.63, pp.1317-1324, 2003.

R. Kumar, M. K. Yakubu, and R. D. Anandjiwala, Biodegradation of flax fiber reinforced poly lactic acid,» EXPRESS ploymer letters, vol.4, pp.423-430, 2010.

A. L. Duigou, I. Pillin, A. Bourmaud, P. Davies, and C. Baley, Effect of recycling on mechanical behaviour of biocompostable flax/poly(llactide) composites, vol.39, pp.1471-1478, 2008.

A. L. Duigou, P. Davies, and C. Baley, Seawater ageing of flax/poly(lactic acid) biocomposites,» Polymer Degradation and Stability, vol.94, pp.1151-1162, 2009.

M. S. Huda, L. T. Drzal, A. K. Mohanty, and M. Misra, Effect of fiber surfacetreatments on the properties of laminated biocomposites from poly(lactic acid) (PLA) and kenaf fibers,» Composites science and technology, vol.68, pp.424-432, 2008.

B. H. Lee, H. S. Kim, S. Lee, H. J. Kim, and J. R. Dorgan, «Bio-composites of kenaf fibers in polylactide: role of improved interfacial adhesion in the carding process, Composites Science and Technology, Vols. %1 sur %269, pp.2573-2579, 2009.

T. Nishino, K. Hirao, M. Kotera, K. Nakamae, and H. Inagaki, Kenaf reinforced biodegradable composite,» Composites science and technology, vol.63, pp.1281-1286, 2003.

D. Plackett, T. L. Andersen, W. B. Pedersen, L. Nielsen, and «. , Biodegradable composites based on l-polylactide and jute fibres, » Composites science and technology, vol.63, issue.9, pp.1287-1296, 2003.

R. H. Hu, M. H. Jang, Y. J. Kim, Y. J. Piao, and J. K. Lim, «Fully degradable jute fiber reinforced polylactide composites applicable to car interior panel, » In Advanced Materials Research, vol.123, pp.1151-1154, 2010.

V. D. , Chemical synthesis and in vitro biocompatibility tests of poly, vol.83, pp.209-215, 2007.

R. B. Yusoff, Tensile and flexural properties of polylactic acid-based hybrid green composites reinforced by kenaf, bamboo and coir fibers, » Industrial Crops and Products, vol.94, pp.562-573, 2016.

K. Okubo, T. Fujii, and E. T. Thostenson, «Multi-scale hybrid biocomposite: processing and mechanical characterization of bamboo fiber reinforced PLA with microfibrillated cellulose, Composites Part A: Applied Science and Manufacturing, vol.40, issue.4, pp.469-475, 2009.

P. Subramani, S. Rana, B. Ghiassi, R. Fangueiro, D. V. Oliveira et al., «Development and characterization of novel auxetic structures based on re-entrant hexagon design produced from braided, Composites Part B: Engineering, vol.93, pp.132-142, 2016.

X. Jin, Z. Wang, J. Ning, G. Xiao, E. Liu et al., «Dynamic response of sandwich structures with graded auxetic honeycomb cores under blast loading, Composites Part B: Engineering, vol.106, pp.206-217, 2016.

F. Usta, F. Scarpa, and H. S. Turkmen, «Edgewise compression of novel hexagonal hierarchical and asymmetric unit cells honeycomb metamaterials,» Materials Today Communications, p.101102, 2020.

A. Alderson, K. Alderson, G. Chirima, N. Ravirala, and K. Zied, «The in-plane linear elastic constants and out-of-plane bending of 3-coordinated ligament and cylinder-ligament honeycombs, Composites Science and Technology, vol.70, issue.7, pp.1034-1041, 2010.

A. Standard and . D638, Standard test method for tensile properties of plastics, 2010.

, Standard Test Methods for Flatwise Compressive Strength of Sandwich Cores, vol.365

, Standard test method for core shear properties of sandwich constructions by beam flexure, ASTM C393/C393M -16, 2016.

A. Likas, N. Vlassis, and J. J. Verbeek, «The global k-mean clustering algorithm, » Pattern recognition, vol.36, issue.2, pp.451-461, 2003.

, NOESIS software, advanced acoustic emission data analysis pattern recognition and neural networks, 2004.

G. W. Milligan and M. C. Cooper, «An examination of procedures for determining the number of clusters in a data set, » Psychometrika, vol.50, issue.2, pp.159-179, 1985.

A. Abir, Comportement des matériaux composites a fibres courtes : applications a l'impact basse vitesse, 2008.

N. Godin, S. Huguet, and R. Gaertner, «Integration of the Kohonen's self-organising map and kmeans algorithm for the segmentation of the AE data collected during tensile tests on crossply composites, Ndt & E International, vol.38, issue.4, pp.299-309, 2005.

A. Bravo, L. Toubal, D. Koffi, and F. Erchiqui, «Development of novel green and biocomposite materials: Tensile and flexural properties and damage analysis using acoustic emission, » Materials & Design, vol.66, pp.16-28, 2015.

D. U. Shah, P. J. Schubel, M. J. Clifford, and P. Licence, «Fatigue life evaluation of aligned plant fibre composites through S--N curves and constant-life diagrams, Composites Science and Technology, vol.74, pp.139-149, 2013.

D. U. Shah, «Damage in biocomposites: Stiffness evolution of aligned plant fibre composites during monotonic and cyclic fatigue loading, Composites Part A: Applied Science and Manufacturing, vol.83, pp.160-168, 2016.

S. Liang, P. Gning, and L. Guillaumat, Comportement en fatigue des composites,» chez 17 èmes Journées Nationales sur les Composites (JNC17), p.75, 2011.

H. Daoud, Contribution à l'étude du comportement mécanique et vibratoire des composites biosourcés incorporant des matériaux fonctionnels, 2018.

A. Bezazi and F. Scarpa, Tensile fatigue of conventional and negative Poisson's ratio open cell PU foams, International Journal of Fatigue, vol.31, issue.3, pp.488-494, 2009.

J. Huang and S. Liu, Fatigue of honeycombs under in-plane multiaxial loads,» Materials Science and Engineering: A, Vols. %1 sur %2308 (1-2), pp.45-52, 2001.

A. Abbadi, Z. Azari, S. Belouettar, J. Gilgert, and P. Freres, «Modelling the fatigue behaviour of composites honeycomb materials (aluminium/aramide fibre core) using four-point bending tests, International Journal of Fatigue, vol.32, issue.11, pp.1739-1747, 2010.

A. Alderson, K. Alderson, G. Chirima, N. Ravirala, and K. Zied, «The in-plane linear elastic constants and out-of-plane bending of 3-coordinated ligament and cylinder-ligament honeycombs, Composites Science and Technology, vol.70, pp.1034-1041

A. E. Mahi, M. K. Farooq, S. Sahraoui, and A. Bezazi, «Modelling the flexural behaviour of sandwich composite materials under cyclic fatigue, » Materials & design, vol.25, pp.199-208, 2004.

W. Boukharouba, A. Bezazi, and F. Scarpa, «Identification and prediction of cyclic fatigue behaviour in sandwich panels, » Measurement, vol.53, pp.161-170, 2014.

S. Prabhakaran, V. Krishnaraj, and R. Zitoune, «Sound and vibration damping properties of flax fiber reinforced composites, » procedia engineering, vol.97, pp.573-581, 2014.

F. Duc, P. Bourban, C. Plummer, and J. Mnson, «Damping of thermoset and thermoplastic flax fibre composites, Composites Part A: Applied Science and Manufacturing, vol.64, pp.115-123, 2014.

D. Mounier, C. Poilâne, H. Khelfa, and P. Picart, «Sub-gigahertz laser resonant ultrasound spectroscopy for the evaluation of elastic properties of micrometric fibers, » Ultrasonics, vol.54, issue.1, pp.259-267, 2014.

C. W. Silva, Vibration : Fundamentals and Practice, 2006.

D. Gay, Composite materials: design and applications,» chez Third Edition, 2014.

. Astm-e756e98, Standard Test Method for Measuring Vibration Damping Properties of Materials

E. Lamanna, N. Gupta, P. Cappa, O. M. Strbik-iii, and K. Cho, «Evaluation of the dynamic properties of an aluminum syntactic foam core sandwich, Journal of Alloys and Compounds, vol.695, pp.2987-2994, 2017.

D. Young and R. P. Felgar, Tables of Characteristic Functions Representing Nomal Modes of Vibration of a Beam, 1949.

C. Lanczos, An iteration method for the solution of the eigenvalue problem of linear differential and integral operators, J Res Natl Bur Stand, vol.45, pp.255-282, 1950.
URL : https://hal.archives-ouvertes.fr/hal-01712947