Mechanical and Dynamic Properties of Biocomposites. Группа авторов

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Siró, I. and Plackett, D. (2010). Microfibrillated cellulose and new nanocomposite materials: a review. Cellulose 17 (3): 459–494.

      25 25 Liu, H., Wu, Q., and Zhang, Q. (2009). Preparation and properties of banana fibre‐reinforced composites based on high density polyethylene (HDPE)/Nylon‐6 blends. Bioresour. Technol. 100 (23): 6088–6097.

      26 26 Jacob, M., Thomas, S., and Varughese, K.T. (2004). Mechanical properties of sisal/oil palm hybrid fibre reinforced natural rubber composites. Compos. Sci. Technol. 64 (7–8): 955–965.

      27 27 Akil, H.M., Omar, M.F., Mazuki, A.A.M. et al. (2011). Kenaf fibre reinforced composites: a review. Mater. Des. 32 (8–9): 4107–4121.

      28 28 Thiruchitrambalam, M., Alavudeen, A., Athijayamani, A. et al. (2009). Improving mechanical properties of banana/kenaf polyester hybrid composites using sodium laulryl sulfate treatment. Mater. Phys. Mech. 8 (2): 165–173.

      29 29 Venkateshwaran, N., ElayaPerumal, A., Alavudeen, A., and Thiruchitrambalam, M. (2011). Mechanical and water absorption behaviour of banana/sisal reinforced hybrid composites. Mater. Des. 32 (7): 4017–4021.

      30 30 Fernandes, E.M., Correlo, V.M., Mano, J.F., and Reis, R.L. (2013). Novel cork‐polymer composites reinforced with short natural coconut fibres: effect of fibre loading and coupling agent addition. Compos. Sci. Technol. 78: 56–62.

      31 31 Mondal, M., Trivedy, K., and Nirmal Kumar, S. (2007). The silk proteins, sericin and fibroin in silkworm, Bombyx mori Linn – a review. Casp. J. Environ. Sci. 5 (2): 63–76.

      32 32 Noorunnisa Khanam, P., Ramachandra Reddy, G., Raghu, K., and Venkata Naidu, S. (2010). Tensile, flexural, and compressive properties of coir/silk fibre‐reinforced hybrid composites. J. Reinf. Plast. Compos. 29 (14): 2124–2127.

      33 33 Mahalaxmi, Y., Sathish, T., Subba Rao, C., and Prakasham, R.S. (2010). Corn husk as a novel substrate for the production of rifamycin B by isolated Amycolatopsis sp. RSP 3 under SSF. Process Biochem. 45 (1): 47–53.

      34 34 Kwon, H.J. et al. (2014). Tensile properties of kenaf fibre and corn husk flour reinforced poly(lactic acid) hybrid bio‐composites: role of aspect ratio of natural fibres. Composites Part B 56: 232–237.

      35 35 Kim, H.J. and Triplett, B.A. (2001). Cotton fibre growth in planta and in vitro. Models for plant cell elongation and cell wall biogenesis. Plant Physiol. 127 (4): 1361–1366.

      36 36 De Medeiros, E.S., Agnelli, J.A.M., Joseph, K. et al. (2005). Mechanical properties of phenolic composites reinforced with jute/cotton hybrid fabrics. Polym. Compos. 26 (1): 1–11.

      37 37 Law, K.N., Daud, W.R.W., and Ghazali, A. (2007). Morphological and chemical nature of fibre strands of oil palm empty‐fruit‐bunch (OPEFB). BioResources 2 (3): 351–362.

      38 38 Jawaid, M., Khalil, H.P.S.A., Bakar, A.A., and Khanam, P.N. (2011). Chemical resistance, void content and tensile properties of oil palm/jute fibre reinforced polymer hybrid composites. Mater. Des. 32 (2): 1014–1019.

      39 39 Davis, S.C., Ming, R., Lebauer, D.S., and Long, S.P. (2015). Toward systems‐level analysis of agricultural production from crassulacean acid metabolism (CAM): scaling from cell to commercial production. New Phytol. 208 (1): 66–72.

      40 40 Reddy, N. and Yang, Y. (2005). Biofibres from agricultural byproducts for industrial applications. Trends Biotechnol. 23 (1): 22–27.

      41 41 Aji, I.S., Zainudin, E.S., Khalina, A. et al. (2011). Studying the effect of fibre size and fibre loading on the mechanical properties of hybridised kenaf/PALF‐reinforced HDPE composite. J. Reinf. Plast. Compos. 30 (6): 546–553.

      42 42 Athijayamani, A., Thiruchitrambalam, M., Natarajan, U., and Pazhanivel, B. (2009). Effect of moisture absorption on the mechanical properties of randomly oriented natural fibres/polyester hybrid composite. Mater. Sci. Eng. A 517 (1–2): 344–353.

      43 43 Noorunnisa Khanam, P., Mohan Reddy, M., Raghu, K. et al. (2007). Tensile, flexural and compressive properties of sisal/silk hybrid composites. J. Reinf. Plast. Compos. 26 (10): 1065–1070.

      44 44 Ashok Kumar, M., Ramachandra Reddy, G., Siva Bharathi, Y. et al. (2010). Naidu, Frictional coefficient, hardness, impact strength, and chemical resistance of reinforced sisal‐glass fibre epoxy hybrid composites. J. Compos. Mater. 44 (26): 3195–3202.

      45 45 Biswas, S. and Xess, P.A. (2012). Erosion wear behaviour of bamboo/glass fibre reinforced epoxy based hybrid composites. International Conference on Mechanical & Industrial Engineering, Darjeeling, West Bengal, India.

      46 46 Boopalan, M., Niranjanaa, M., and Umapathy, M.J. (2013). Study on the mechanical properties and thermal properties of jute and banana fibre reinforced epoxy hybrid composites. Composites Part B 51: 54–57.

      47 47 Jawaid, M., Abdul Khalil, H.P.S., and Alattas, O.S. (2012). Woven hybrid biocomposites: dynamic mechanical and thermal properties. Composites Part A 43 (2): 288–293.

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