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Wood polymer nanocomposite

Wood polymer nanocomposites were prepared through impregnation of wood with PF/Nanoclay by another research Islam et al. and their co-researcher [37]. They reported that wood polymer nanocomposites (WPNCs) which were manufactured from five tropical wood species by vacuum-impregnation method have increased dynamic mechanical thermal properties. [Pg.319]

M.S. Islam, S. Hamdan, Z.A. Tahb, A. Ahmed, M.R. Rahman, Tropical wood polymer nanocomposite (WPNC) The impact of nanoclay on dynamic mechanical thermal properties. Compos. Sci. Technol. 72 (2012), 1995-2001 (2012). [Pg.324]

Bio-based Wood Polymer Nanocomposites A Sustainable High-Performance Material for Future... [Pg.233]

Hazarika and Maji 2013a, b, 2014a, b, c, d). Dimensional stability, UV protection, and weather resistance are very significant properties for wood-based materials used in exterior applications. Bio-based wood polymer nanocomposites will have superior properties and can be regarded as high-performance material for the future generation. [Pg.236]

CNT are cylindrical nanostmcture (Fig. 7) having length starting from hundreds of nanometers to micron and even millimeters and radius in nanometer (Saito et al. 1998). The excellent mechanical and physical properties of CNTs based nanocomposites has motivated researchers in developing high-performance wood polymer nanocomposites based on carbon nanotubes (Hazarika and Maji 2014a, b, c, d). The... [Pg.246]

Properties of Wood Polymer Nanocomposites 8.1 Dimensional Stability... [Pg.248]

Wood is extremely resistant to mild chemicals and as such it provides a significant advantage over many alternative construction materials. The various alternative construction materials, like concrete and steel are prone to corrosion. WPG can effectively substitute these materials as it is resistant to acidic salt solutions, mild acids, and corrosive agents. The chemical resistance properties enhance further in case of wood polymer nanocomposites (Deka et al. 2012). The nanoparticles offer a tortuous path for diffusion of chemicals throughout the composites thereby improving its chemical resistance. [Pg.250]

Deka BK, Maji TK (2011) Effect of Ti02 and nanoclay on the properties of wood polymer nanocomposite. Compos Part A 42 2117-2125... [Pg.254]

Deka BK, Mandal M, Maji TK (2012) Effect of nanoparticles on flammability, UV resistance, biodegradability, and chemical resistance of wood polymer nanocomposite. Ind Eng Chem Res 51 11881-11891... [Pg.254]

Hazarika A, Maji TK (2013a) Study on the properties of wood polymer nanocomposites based on melamine formaldehyde-furfuryl alcohol copolymer and modified clay. J Wood Chem Technol 33 103-124... [Pg.254]

Hazarika A, Maji TK (2013b) Synergistic effect of nano-Ti02 and nanoclay on the ultraviolet degradation and physieal properties of wood polymer nanocomposites. Ind Eng Chem Res 52 13536-13546... [Pg.254]

Hazarika A, Maji TK (2014c) Strain sensing behavior and dynamic mechanical properties of carbon nanotubes/nanoclay reinforced wood polymCT nanocomposite. Chem Eng J 247 33-41 Hazarika A, Maji TK (2014d) Thermal decomposition kinetics, flammability, and mechanical property smdy of wood polymtar nanocomposite. J Therm Anal Calorim 115 1679-1691 Hazarika A, Mandal M, Maji TK (2014) Dynamic mechanical analysis, biodegradability and thermal stability of wood polymer nanocomposites. Compos Part B 60 568-576 Hetzer M, Kee D (2008) Wootl/polymer/nanoclay composites, environmentally friendly sustainable technology a review. Chem Eng Res Des 86 1083-1093 Hill CAS, Abdirl KHPS, Hale MD (1998) A study of the potential of acetylation to improve the properties of plant fibres, frrd Crops Prod 8 53-63 Hoffmann MR, Martin ST, Choi WY, Bahnemann W (1995) Environmental application of semiconductm photocatalysis. Chem Rev 95 69-96 Huda MS, Drzal LT, Misra M, Mohanty AK (2(K)6) Wood-fiber-reinforced poly(lactic acid) composites evaluation of the physicomechanical and morphological properties. J AppI Polym Sci 102 4856-4869... [Pg.255]

Martinez-Hemandez AL, Velasco-Santos C (2012) Keratin fibers from chicken feathers structure and advances in polymer composites. Nova Publishers, New York, pp 149-211 Martinez-Hemandez AL, Velasco-Santos C, de-Icaza M, Castano VM (2007) D5mamical-mechanical and thermal analysis of polymeric composites reinforced with keratin biofibers from chicken feathers. Compos Part B Eng 38 405 10 Mathew AP, Dufresne A (2002) Morphological investigation of nanocomposites from sorbitol plasticized starch and tunicin whiskers. Biomacromolecules 3 609-617 Md. Islama S, Hamdana S, Talibb ZA, Ahmeda AS, Md. Rahmana R (2012) Tropical wood polymer nanocomposite (WPNC) The impact of nanoclay on dynamic mechanical thermal properties. Compos Sci Technol 72 1995-2001... [Pg.256]

A. H. Hemmasi, H. Khademi-Eslam, M. Talaiepoor, B. Kord, and 1. Ghasemi, Effect of nanoclay on the mechanical and morphological properties of wood polymer nanocomposite./. Reinforced Plastics Compos. 29,964 (2010). [Pg.211]

Hemmasi, A. H., Khademi-Eslam, H., Talaiepoor, M., Kord, B., Ghasemi, I. Effect of Nanoclay on the Mechanical and Morphological Properties of Wood Polymer Nanocomposite. Journal of Reinforced Plastics and Composites. 2010, 29, 964-971. [Pg.84]


See other pages where Wood polymer nanocomposite is mentioned: [Pg.319]    [Pg.319]    [Pg.324]    [Pg.233]    [Pg.235]    [Pg.236]    [Pg.236]    [Pg.237]    [Pg.237]    [Pg.237]    [Pg.237]    [Pg.239]    [Pg.241]    [Pg.243]    [Pg.245]    [Pg.245]    [Pg.246]    [Pg.247]    [Pg.249]    [Pg.251]    [Pg.251]    [Pg.251]    [Pg.252]    [Pg.253]    [Pg.258]    [Pg.251]    [Pg.156]    [Pg.419]   
See also in sourсe #XX -- [ Pg.250 ]




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