P. J. Landrigan, R. Fuller, N. Acosta, O. Adeyi, R. Arnold et al., The Lancet commission on pollution and health, The Lancet, vol.391, pp.462-512, 2018.

R. E. Melgar-melgar and C. Hall, Why ecological economics needs to return to its roots: The biophysical foundation of socio-economic systems, Ecological Economics, vol.169, p.106657, 2020.

T. Vaisanen, O. Das, and L. Tomppo, A review on new bio-based constituents for natural fiber-polymer composites, J. Clean. Prod, vol.149, pp.582-596, 2017.

L. Rodier, K. Bilba, C. Onésippe, and M. A. Arsène, Utilization of bio-chars from sugarcanne pyrolyis in cement-based composites, Ind. Crops Prod, vol.141, p.111731, 2019.

, Submit your Manuscript | www

T. Sonar, S. Patil, V. Deshmukh, and R. Acharya, Natural Fiber Reinforced Polymer Composite Material-A Review, IOSR J. Mech. Civil Eng, pp.142-147, 2015.

K. L. Pickering, M. Efendy, and T. M. Le, A review of recent developments in natural fibre composites and their mechanical performance, Comp. A Appl. Sci. Manufact, vol.83, pp.98-112, 2016.

M. S. Fogorasi and I. Barbu, The potential of natural fibres for automotive sectorreview, IOP Conference Series: Materials Science and Engineering, vol.252, p.12044, 2017.

S. Mohamed, E. S. Zainudin, S. M. Sapuan, M. D. Azaman, and A. Arifin, Introduction to Natural Fiber Reinforced Vinyl Ester and Vinyl Polymer Composites, Natural Fibre Reinforced Vinyl Ester and Vinyl Polymer Composites, pp.1-25, 2018.

M. J. Mochane, T. C. Mokhena, T. H. Mokhothu, A. Mtibe, E. R. Sadiku et al., Recent progress on natural fiber hybrid composites for advanced applications: A review, Express Polym. Lett, vol.13, pp.159-198, 2019.

M. Abdollah, M. Salim, and T. B. Tuan, Proceedings of Mechanical Engineering Research Day, 2016.

Y. G. Zhou, B. Su, and L. S. Turng, Mechanical properties, fiber orientation, and length distribution of glass fiber-reinforced polypropylene parts: Influence of waterfoaming technology, Polym. Comp, vol.39, pp.4386-4399, 2018.

M. Such, C. Ward, and K. Potter, Aligned Discontinuous Fibre Composites : A Short History, J. Multifunct. Comp, vol.3, pp.155-168, 2014.

S. Goutianos, T. Peijs, B. Nystrom, and M. Skrifvars, Development of Flax Fibre based Textile Reinforcements for Composite Applications, Appl. Comp. Materials, vol.13, pp.199-215, 2006.

P. K. Mallick, Thermoplastics and thermoplastic-matrix composites for lightweight automotive structures. Mallick PK, editors. In: Materials, Design and Manufacturing for Lightweight Vehicles, pp.174-207, 2010.

A. Porras and A. Maranon, Development and characterization of a laminate composite material from Polylactic Acid (PLA) and woven bamboo fabric, Comp. B Eng, vol.43, pp.2782-2788, 2012.

S. Jeyanthi and J. Janci, Development of natural long fiber thermoplastic composites for automotive frontal beams, Indian J. Eng. Materials Sci, vol.21, pp.580-584, 2014.

T. Sunny, K. L. Pickering, S. H. Lim, S. Bickerton, R. Lin et al., Alignment of Short Fibres : An Overview, Processing and Fabrication of Advanced Materials -XXV, pp.616-625, 2017.

D. Tambyrajah, Indulge & Explore Natural Fiber Composites: An Invitation to Product Designers, 2015.

M. Y. Matveev and A. C. Long, Numerical modelling for predicting failure in textile composites, Numerical Modelling of Failure in Advanced Composite Materials, pp.435-455, 2015.

N. S. Karaduman, Y. Karaduman, and H. O. Ozdemir, Textile Reinforced Structural Composites for Advanced Applications. Textiles for Advanced Applications, 2017.

F. Pascal, O. Dorival, P. Navarro, S. Marguet, and J. F. Ferrero, Impact damage prediction in thin woven composite laminates -Part I: Modeling strategy and validation, Comp. Struct, vol.190, pp.32-42, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01878006

E. V. Bachtiar, K. Kurkowiak, L. Yan, B. Kasal, and T. Kolb, Thermal Stability, Fire Performance, and Mechanical Properties of Natural Fibre Fabric-Reinforced Polymer Composites with Different Fire Retardants, Polymers, vol.11, pp.699-714, 2019.

T. A. Osswald, Discontinuous fiber composites, 2019.

R. D. Anandjiwala, Textiles for Sustainable Development, 2019.

E. Chan and C. R. Elevitch, Cocos nucifera (coconut), Species Profiles for Pacific Island Agroforestry, 2006.

A. Ouensanga and C. Picard, Thermal degradation of sugar cane bagasse, Thermochimica Acta, vol.125, pp.89-97, 1988.

. Astm-d5035, Standard Test Method for Breaking Force and Elongation of Textile Fabrics (Strip Method), 2015.

D. Denninger, M. Berger, and Y. Kyosev, Interlacement Variations in the Alternative Covering Technology, Narrow and Smart Textiles, pp.69-79, 2018.

L. Muraille, V. Aguié-béghin, B. Chabbert, and M. Molinari, Bioinspired lignocellulosic films to understand the mechanical properties of lignified plant cell walls at nanoscale. Scientific reports, vol.7, p.44065, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01602576

L. Vo and P. Navard, Treatments of plant biomass for cementitious building materials -A review, Constr. Build. Mat, vol.121, pp.161-176, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01354139

L. C. Hao, S. M. Sapuan, M. R. Hassan, and R. M. Sheltami, Natural fiber reinforced vinyl polymer composites, Natural Fibre Reinforced Vinyl Ester and Vinyl Polymer Composites, pp.27-70, 2018.

R. S. Ikramullah, D. A. Gopakumar, S. Thalib, S. Huzni, A. Khalil et al., Interfacial Compatibility Evaluation on the Fiber Treatment in the Typha Fiber Reinforced Epoxy Composites and Their Effect on the Chemical and Mechanical Properties, Polymers, vol.10, pp.1-13, 2018.

C. Brigham and . Biopolymers, Biodegradable Alternatives to Traditional Plastics. Török B, Dransfield T, pp.753-770, 2018.

Y. Zeng, M. E. Himmel, and S. Y. Ding, Visualizing chemical functionality in plant cell walls, Biotechnol. Biofuels, vol.10, pp.263-279, 2017.

A. K. Bledzki, M. Letman, A. Viksne, and L. Rence, A comparison of compounding processes and wood type for wood fibre-PP composites, Comp. A: Appl. Sci. Manufact, vol.36, pp.789-797, 2005.

R. Abouzeid, N. El-wakil, and Y. Fahmy, Thermoplastic Composites from Natural Reed Fibers, Egyptian J. Chem, vol.58, pp.287-298, 2015.

P. Raharjo, R. Soenoko, A. Purnowidodo, and M. Choiron, Characterization of Sodium-Bicarbonate-Treated Zalacca Fibers as Composite Reinforcements, Evergreen, vol.6, pp.29-38, 2019.

M. Özparpucu, M. Rüggeberg, N. Gierlinger, I. Cesarino, R. Vanholme et al., Unravelling the impact of lignin on cell wall mechanics: a comprehensive study on young poplar trees downregulated for CINNAMYL ALCOHOL DEHYDROGENASE (CAD), Plant J. Cell Molecul. Biol, vol.91, pp.480-490, 2017.

H. Ramasawmy, J. Chummun, and A. B. Bhurtun, Characterization of the tensile strength of chemically treated Pandanus utilis (screwpine) fibres for potential application as reinforcement in epoxy composite, Int. J. Plastics Technol, vol.21, pp.144-170, 2017.

N. Lu, S. Oza, and M. Tajabadi, Surface Modification of Natural Fibers for Reinforcement in Polymeric Composites, Surface Modification of Biopolymers, pp.224-237, 2015.

B. Koohestani, A. K. Darban, P. Mokhtari, E. Yilmaz, and E. Darezereshki, Comparison of different natural fiber treatments: a literature review, Int. J. Environm. Sci. Technol, vol.16, pp.629-642, 2019.

D. Jones, G. O. Ormondroyd, S. F. Curling, C. M. Popescu, and M. C. Popescu, Advanced High Strength Natural Fibre Composites in Construction, pp.23-58, 2017.

C. Parida, S. K. Dash, and C. Pradhan, FTIR and Raman Studies of Cellulose Fibers of Luffa cylindrical, Open J. Comp. Materials, vol.5, pp.5-10, 2015.

C. Anandarajah, P. Li, M. Michel, Y. Chen, R. Jamshidi et al., Study of Agave Fiber-Reinforced Biocomposite Films, Materials, vol.12, pp.99-111, 2018.

, Submit your Manuscript | www

I. Salem, A. R. Rozyanty, B. O. Betar, T. Adam, M. Mohammed et al., Study of the effect of surface treatment of kenaf fiber on chemical structure and water absorption of kenaf filled unsaturated polyester composite, J. Phys. Conference Series, vol.908, p.12001, 2017.

A. D. Wolela, Extraction and Characterization of Natural Cellulose Fibers from Sansevieria Trifasciata Plant, Advancem. Bioequ. Bioavailab, vol.5, pp.630-634, 2019.

A. L. De-lemos, R. Santana, and C. Mauss, Characterization of natural fibers: Wood, sugarcane and babassu for use in biocomposites, Cellulose Chem. Technol, vol.51, pp.711-718, 2017.

T. Alomayri, H. Assaedi, F. Shaikh, and I. M. Low, Effect of water absorption on the mechanical properties of cotton fabric-reinforced geopolymer composites, J. Asian Ceramic Soc, vol.2, pp.223-230, 2014.

H. Wang, F. Lin, P. Qiu, and T. Liu, Effects of Extractives on Dimensional Stability, Dynamic Mechanical Properties, Creep, and Stress Relaxation of Rice Straw/ High-Density Polyethylene Composites, Polymers, vol.10, pp.1176-1186, 2018.

H. L. Ornaghi, M. Poletto, A. J. Zattera, and S. C. Amico, Correlation of the thermal stability and the decomposition kinetics of six different vegetal fibers, Cellulose, vol.21, pp.177-188, 2014.

J. Jain, S. Jain, and S. Sinha, Characterization and thermal kinetic analysis of pineapple leaf fibers and their reinforcement in epoxy, J. Elast. Plastics, vol.51, pp.224-243, 2019.

A. Hart and J. Summerscales, Effect of time at temperature for natural fibres, Procedia Eng, vol.200, pp.269-275, 2017.

S. N. Monteiro, V. Calado, R. Rodriguez, and F. M. Margem, Thermogravimetric behavior of natural fibers reinforced polymer composites -An overview, Materials Sci. Eng. A, vol.557, pp.17-28, 2012.

M. Poletto, H. Júnior, and A. J. Zattera, Thermal Decomposition of Natural Fibers: Kinetics and Degradation Mechanisms, Reactions and Mechanisms in Thermal Analysis of Advanced Materials, pp.515-545, 2015.

F. Yao, Q. Wu, Y. Lei, W. Guo, and Y. Xu, Thermal decomposition kinetics of natural fibers: Activation energy with dynamic thermogravimetric analysis, Polym. Degradation Stability, vol.93, pp.90-98, 2008.

H. Yang, R. Yan, H. Chen, D. H. Lee, and C. Zheng, Characteristics of hemicellulose, cellulose and lignin pyrolysis, Fuel, vol.86, pp.1781-1788, 2007.

M. Poletto, Assessment of the thermal behavior of lignins from softwood and hardwood species. Maderas: Ciencia y tecnología, vol.19, pp.63-74, 2017.

J. P. Patel and P. H. Parsania, Characterization, testing, and reinforcing materials of biodegradable composites. Shimpi NG, Biodegradable and Biocompatible Polymer Composites, pp.55-79, 2018.

A. Porras, A. Maranon, and I. A. Ashcroft, Characterization of a novel natural cellulose fabric from Manicaria saccifera palm as possible reinforcement of composite materials, Comp. B Eng, vol.74, pp.66-73, 2015.

M. Chandrasekar, M. R. Ishak, S. N. Sapuan, Z. Leman, and M. Jawaid, A review on the characterization of natural fibres and their composites after alkali treatment and water absorption, Polymers Adv. Technol, vol.46, pp.119-136, 2017.

A. Pai and R. N. Jagtap, Surface morphology & mechanical properties of some unique natural fiber reinforced polymer composites-a review, J. Materials Env. Sci, vol.6, pp.902-917, 2015.

?. Y?ld?zhan, A. Çal?k, M. Özcanl?, and H. Serin, Bio-composite materials: a short review of recent trends, mechanical and chemical properties, and applications, European Mechan. Sci, vol.2, pp.83-91, 2018.

C. Magniont, Contribution à la formulation et à la caractérisation d'un écomatériau de construction à base d'agroressources, 2010.

V. Agopyan, S. Junior, H. John, V. M. Cincotto, and M. A. , Developments on vegetable fibre-cement based materials in São Paulo, Brazil: an overview, Cem. Concr. Comp, vol.27, pp.527-536, 2005.

T. Filho, R. D. Ghavami, K. Sanjuán, M. A. England, and G. L. , Free, restrained and drying shrinkage of cement mortar composites reinforced with vegetable fibres, Cem. Concr. Comp, vol.27, pp.537-546, 2005.

G. Ramakrishna and T. Sundararajan, Impact strength of a few natural fibre reinforced cement mortar slabs: a comparative study, Cem. Concr. Comp, vol.27, pp.547-553, 2005.

F. Pacheco-torgal and S. Jalali, Cementitious building materials reinforced with vegetable fibres: A review, Constr. Build. Mat, vol.25, pp.575-581, 2011.

A. Kriker, G. Debicki, A. Bali, M. M. Khenfer, and M. Chabannet, Mechanical properties of date palm fibres and concrete reinforced with date palm fibres in hot-dry climate, Cem. Concr. Comp, vol.27, pp.554-564, 2005.

L. Pennas, I. Cattani, B. Leonardi, A. F. Seyam, M. Midani et al., Textile Palm Fibers from Amazon Biome, Materials Res, vol.11, pp.262-274, 2019.

J. Jayaramudu, D. Reddy, B. R. Guduri, and A. V. Rajulu, Properties of natural fabric polyalthia cerasoides, Fibers Polym, vol.10, pp.338-342, 2009.

J. Jayaramudu, B. R. Guduri, and A. V. Rajulu, Characterization of Natural Fabric Sterculia urens, Int. J. Polym. Anal. Charact, vol.14, pp.115-125, 2009.

J. Jayaramudu and B. R. Guduri, Varada Rajulu A. Characterization of new natural cellulosic fabric Grewia tilifolia, Carb. Polym, vol.79, pp.847-851, 2010.

J. Jayaramudu, A. Maity, E. R. Sadiku, B. R. Guduri, A. Varada-rajulu et al., Structure and properties of new natural cellulose fabrics from Cordia dichotoma, Carb. Polym, vol.86, pp.1623-1629, 2011.

S. Chabba and A. N. Netravali, Green" composites Part 1: Characterization of flax fabric and glutaraldehyde modified soy protein concentrate composites, J. Materials Sci, vol.40, pp.6263-6273, 2005.

B. Hamza, H. Elhaddi, R. Mansour, G. Priniotakis, S. Vassilliadis et al., Physico-chemical and mechanical characterization of Jute fabrics for civil engineering applications, J. Comput. Methods Sci. Eng, vol.18, pp.1-19, 2018.

I. M. Misnon, M. M. Islam, J. A. Epaarachchi, K. T. Lau, and H. Wang, Fabric Parameter Effect on the Mechanical Properties of Woven Hemp Fabric Reinforced Composites as an Alternative to Wood Products, Adv. Res. Textile Eng, vol.1, pp.1-11, 2016.

, Renforts tissés. Hexcel, 2019.