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Polylactic acid characterization

Al-Mulla, E.A.J. 2011. Polylactic acid/epoxidized palm oil/fatty nitrogen compounds modified clay nanocomposites Preparation and characterization. Korean Journal of... [Pg.37]

Porras, A. and Maranon, A. (2012) Development and characterization of a laminate composite material from polylactic acid (PLA) and woven bamboo fabric. Composites Part B, 43 (7), 2782-2788. [Pg.338]

Moran, J.M., Pazzano, D., and Bonassar, L.J. (2003) Characterization of polylactic acid-polyglycolic acid composites for cartilage tissue engineering. Tissue Eng., 9 (1), 63-70. [Pg.339]

Araujo AB, Lemos AF, Ferreira JM (2009) Rheological, microstractural, and in vitro characterization of hybrid chitosan-polylactic acid/hydroxyapatite composites. J Biomed Mater Res 88A 916-922... [Pg.168]

Oksman K, Mathew AP, Bondeson D, Kvien I (2006) Manufacturing process of cellulose whiskers/polylactic acid nanocomposites. Compos Sci Technol 66 2776-2784 Oksman K, Mathew AP, Sain M (2009) Novel bionanocomposites processing, poperties and potential applications. Plast Rubber Compos 38 47-61 Okubo K, Fujii T, Thostenson ET (2009) Multi-scale hybrid biocoraposite processing and mechanical characterization of bamboo fibta reinforced PLA with microfibrillated cellulose. Compos Part A-Appl Sci Manufact 40 469-475... [Pg.557]

Cai, X., Tong, H. S., Shen, X., Chen, W., Yan, J., Hu, J. (2009). Preparation and characterization of homogeneous chitosan—polylactic acid/hydroxyapatite nanocomposite for bone tissue engineering and evaluation of its mechanical properties. Acta Biomaterialia, 5, 2693-2703. [Pg.466]

Palumbo, F., Pitarresi, G., Mandracchia, D., Tripodo, G., Giammona, G. (2006). New graft copolymers of hyaluronic acid and polylactic acid Synthesis and characterization. Carbohydrate Polymers, 66, 379—385. [Pg.470]

Mi, H.-Y, Sahck, M.R., Jing, X., Jacques, B.R., Crone, W.C., Peng, X.-E, Tumg, L.-S., 2013. Characterization of thermoplastic polyurethane/polylactic acid (TPU/PLA) tissue engineering scaffolds fabricated by microcellular injection molding. Materials Science and Engineering C 33 (8), 4767-4776. [Pg.94]

Raman spectroscopy has been applied to determine the stiffness (modulus) of CNCs and stress-transfer in CNCs-reinforced composites or biocomposites where reinforcing phase is too small to be characterized by using standard mechanical techniques. This technique involves the measurement of deformation (a shift in the carbonyl (C-O) mode of the cellulose chain) [96], Originally these shifts of Raman bands were reported for single crystals of polydiacetylene [97] and composites [98] followed by shifts reported for stressed regenerated cellulose fibers [99]. The Raman bands shift is the indication of molecular deformation and determine the extent of stress-transfer between reinforcing CNCs and matrix. The intensity of Raman band measures the orientation distribution of the nanocrystals in composites [96]. Recently, some researchers measured the stress-transfer behavior in microfibrillated cellulose-reinforced polylactic acid and cellulose nanowhiskers-reinforced epoxy-resin composites [96,100]. [Pg.405]

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