Cellulose whisker

Chauve et al. [253] utilized the same technique to examine the reinforcing effects of cellulose whiskers in EVA copolymer nanocomposites. It was shown that larger energy is needed to separate polar EVA copolymers from cellulose than for the nonpolar ethylene homopolymer. The elastomeric properties in the presence of spherical nanoparticles were studied by Sen et al. [254] utilizing Monte Carlo simulations on polypropylene matrix. They found that the presence of the nanofillers, due to their effect on chain conformation, significantly affected the elastomeric properties of nanocomposites. [Pg.76]

Fig. 7 Logarithmic plot of the shear modulus G (Pa) for a composite specimen of poly(styrene-co-butyl acrylate) reinforced by 6 wt % cellulose whiskers, as a function of temperature. This specimen is compared with a control sample that does not contain any whisker. (Reproduced from [77])...

Bondeson D, Kvien I, Oksman K (2006) Strategies for preparation of cellulose whiskers from MCC as reinforcement in nanocomposites. ACS Symp Ser 938 10-25... [Pg.1512]

Current research indicates that there is a growing interest in natural fibers. Natural fibers Ifom jute were tested in thermosetting and thermoplastic resins. Lignin fillers were used in phenol-formaldehyde, SBR, SBS, and S1S ° and with good results. The opportunities for applications of natural fibers in industrial products have been the subject of recent reviews. Cellulose whiskers with a high reinforcing value were obtained from wheat straw. " Wood fibers were found applicable to such diverse materials as polypropylene... [Pg.189]

A. Dufresne, M. B. Kellerhals, and B. Witholt, Transcrystallization in Mcl-PHAs/cellulose whiskers composites. Macromolecules, 32 (1999) 7396-7401. [Pg.109]

Y. Habibi, H. Chanzy, and M. Vignon, TEMPO-mediated surface oxidation of cellulose whiskers. Cellulose, 13 (2006) 679-687. [Pg.113]

W. Helbert, J. Y. Cavaille, and A. Dufiesne, Thermoplastic nanocomposites filled with wheat straw cellulose whiskers. Part I Processing and mechanical behavior, Polym. Compos., 17 (1996) 604-611. [Pg.113]

M. A. S. Azizi Samir, F. Alloin, and A. Dufresne, Review of recent research into cellulose whiskers, flieir properties and tiieir applications in nanocomposite field. Biomacromolecules, 6 (2005) 612-626. [Pg.113]

V. Favier, H. Chanzy, and J. Y. Cavaille, Polymer nanocomposites reinforced by cellulose whiskers, Macromolecules, 28 (1995) 6365-6367. [Pg.116]

L. Petersson, I. Kvien, and K. Oksman, Stmcture and thermal properties of poly (lactic acid)/cellulose whiskers nanocomposites materials. Compos. Sci. Technol, 67 (2007)2535-2544. [Pg.116]

AZI04] Azizi Samir M.A.S., Alloin F., Sanchez J.Y., et ai, Preparation of cellulose whiskers reinforced nanocomposites from an organic medium suspension . Macromolecules, vol. 37, no. 4, pp. 1386-1393,2004. [Pg.193]

AZI 05] Azizi Samir M.A.S., Alloin F., Dufresne A., Review of recent research into cellulosic whiskers, their properties and their application in nanocomposite field . Biomacromolecules, vol. 6, no. 2, pp. 612-626,2005. [Pg.193]

Oksman, K., et al., 2006. Manufacturing process of cellulose whiskers/polylactic acid nanocomposites. Composites Science and Technology 66 (15), 2776—2784. [Pg.69]

Processing and characterization of new thermoset nanocomposites based on cellulose whiskers, 7,117-131. [Pg.136]

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

Pandey, J. K., Chua, W. S, Kima, C. S., Leeb, C. S., and Ahn, S. H. (2009). Bio-nano reinforcement of environ mentally degradable polymer matrix by cellulose whiskers from grass,... [Pg.137]

Gousse, C., Chanzy, H., Excoffier, G., Soubeyrand, L., and Fleuiy, E. (2002). Stable suspensions of partially silylated cellulose whiskers dispersed in organic solvents, Po/ 22 v 4-3,2645-2651. [Pg.137]

Gauthier, C. (1995). Nano-composite materials from latex and cellulose whiskers, 6, 351-355. [Pg.139]

J. Y. (2005). New nanocomposite materials reinforced with cellulose whiskers in atactic poty-propylene Effect of surface and dispersion characteristics, 6,2732-2739. [Pg.139]

Chazeau, L., Cavaille, J. Y, Canova, G., Dendievel, R., and Boutherin, B. (1999). Viscoelastic properties of plasticized PVC reinforced with cellulose whiskers,71,1797-1808. [Pg.139]

Ljungberg, N., Cavaille, J. Y., and Heux, L. (2006). Nanocomposites of isotactic polypropylene reinforced with rod-like cellulose whiskers. Polymer. 47,6285-6292. [Pg.140]

Petersson, L., Kvien, I., Oksman, K., Structure and thermal properties of poly(lactic acid)/cellulose whiskers nanocomposite materials. Composites Science and Technology. 11-12, 2535-2544 (2007), DOI http //dx.doi.0rg/lO.lOl6/j.compscitech.2006.12.012. [Pg.926]

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