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Nanocomposites polyethylene

Su, S., Jiang, D. D., and Wilkie, C. A. Poly(methyl methacrylate), polypropylene and polyethylene nanocomposite formation by melt blending using novel polymerically-modified clays, Polym. Degrad. Stab. (2004), 83,321-331. [Pg.294]

Thermal and Thermal-oxidative Degradation of Polyethylene Nanocomposite Prepared by Intercalation Polymerization... [Pg.1]

A. (2009). Extrusion and characterization of functionalized cellulose whiskers reinforced polyethylene nanocomposites, g/ja21 C>... [Pg.137]

Wang, W.Y. Zeng, X.F. Wang, G.Q. Chen J.F.(2007). Preparation and Characterization of Calcium Carbonate/ Low-Density-Polyethylene Nanocomposites. Journal of Applied Polymer Science, vol.106. No.3, pp.1932-1938. ISSN 1097-4628... [Pg.355]

A polyethylene nanocomposite was fabricated using the following materials ... [Pg.180]

Reis J, Kanagaraj S, Fonseca A, Mathew MT, Capela-Silva F, Potes J, et al. In vitro studies of multiwalled carbon nanotube/ultrahigh molecular weight polyethylene nanocomposites with osteoblast-like MG63 cells. Braz J Med Biol Res 2010 43 476-82. [Pg.96]

TiOj-polyethylene nanocomposites were fabricated via melt blending technique [37,66]. Similarly, TiO -PP nanocomposite was prepared via melt blending technique [67]. ZnO-polyoxymethylene nanocomposites were prepared by melt blending technique [35]. [Pg.284]

The tensile strength in other systems like TiO -polyethylene nanocomposite system increases with the increase in concentration of the nanoparticle up to a threshold value of 2 wt%, beyond which, the high surface energy and the high surface area lead to the formation of agglomerates, which reduce the strength [37]. [Pg.317]

Figure 10.21 The hardness of ND-alkyl/polyethylene nanocomposites as a function of ND content. Reprinted from [56] Copyright 2011, with permission from Elsevier. Figure 10.21 The hardness of ND-alkyl/polyethylene nanocomposites as a function of ND content. Reprinted from [56] Copyright 2011, with permission from Elsevier.
T. Kuila, S. Bose, A.K. Mishra, P. Khanra, N.H. Kim, cuid JH Lee, Effect of functionalized graphene on the physical properties of linear low density polyethylene nanocomposites. Polymer Testing, 31 (1), 31-38,2012. [Pg.397]

Shah, R. and Raul, D. R. 2006. Organoclay degradation in melt processed polyethylene nanocomposites. Polymer 47 4075-4084. [Pg.23]

TEM micrograph (scale bar 100 nm) for a polyethylene nanocomposite containing acid-treated montmorillonite (5.4 wt%). The material was made by in situ polymerization using Zr(CH2Ph)4 supported on the Al Bug-treated clay, using a prepolymerization step. [Pg.146]

See other pages where Nanocomposites polyethylene is mentioned: [Pg.292]    [Pg.36]    [Pg.113]    [Pg.3]    [Pg.683]    [Pg.53]    [Pg.115]    [Pg.283]    [Pg.329]    [Pg.394]    [Pg.548]    [Pg.51]    [Pg.56]    [Pg.87]    [Pg.96]    [Pg.159]    [Pg.162]    [Pg.164]   
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High density polyethylene, HDPE nanocomposites

High-density polyethylene-ethylene vinyl acetate-clay nanocomposites

Layered Double Hydroxides as Nanofillers of Composites and Nanocomposite Materials Based on Polyethylene

Montmorillonite Polyethylene Nanocomposites

Nanocomposite high-density polyethylene

Nanocomposites from Recycled Polyethylene

Nanocomposites from Recycled Polyethylene Terephthalate

Polyethylene Nanotube Nanocomposites

Polyethylene oxide nanocomposite structure

Polyethylene oxide) Polymer-clay nanocomposites

Polyethylene oxide) nanocomposites

Polyethylene-based nanocomposites

Polyethylene-clay nanocomposites

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