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Effect of gamma ray on poly(lactic acid)/poly(vinyl acetate-co-vinyl alcohol) blends as biodegradable food packaging films

Razavi, S. M ; Sharif University of Technology

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  1. Type of Document: Article
  2. DOI: 10.1016/j.radphyschem.2013.08.010
  3. Abstract:
  4. Poly(lactic acid) (PLA)/poly(vinyl acetate-. co-vinyl alcohol) [P(VAc-. co-VA)] blends as new transparent film packaging materials were prepared at various blend compositions and different vinyl alcohol contents. The blends and pure PLA were irradiated by gamma rays to investigate the extent of changes in the packaging material during gamma ray sterilization process. The miscibility of the blends was dependent on the blend composition and vinyl alcohol content; gamma irradiation had little effect on the extent of miscibility. The glass transition temperature of pure PLA and PLA/P(VAc-. co-VA) miscible blends reduced after irradiation. On the other hand in PLA/P(VAc-. co-VA) immiscible blends, while the glass transition temperature of the PLA phase decreased; that of the copolymer phase slightly increased. The reduction in the glass transition was about 10 percent for samples irradiated with 50. kGy indicating dominance of chain scission of PLA molecules at high irradiation dose. The latter was verified by drop in mechanical properties of pure PLA after exposing to gamma irradiation at 50. kGy. Blending of PLA with the copolymer P(VAc-. co-VA) compensated greatly the adverse effects of irradiation on PLA. The oxygen-barrier property of the blend was superior to the neat PLA and remained almost intact with irradiation. The un-irradiated and irradiated blends had excellent transparency.Gamma ray doses used for sterilization purposes are usually less than 20. kGy. It was shown that gamma irradiation at 20. kGy had no or little adverse effects on PLA/P(VAc-. co-VA) blends mechanical and gas barrier properties
  5. Keywords:
  6. Blend ; Gamma irradiation ; Gas permeability ; Poly(lactic acid) ; Biodegradable food packaging ; Gas barrier properties ; Immiscible blends ; Oxygen barrier properties ; Poly lactic acid ; Sterilization process ; Transparent films ; Blending ; Copolymers ; Glass ; Glass transition ; Irradiation ; Lactic acid ; Mechanical properties ; Packaging materials ; Solubility ; Sterilization (cleaning) ; Gamma rays ; Copolymer ; Oxygen ; Poly(vinyl acetate co vinyl alcohol) ; polylactic acid ; Unclassified drug ; Biodegradability ; Cardiovascular surgery ; Chemical composition ; Chemical interaction ; Film ; Food packaging ; Gamma radiation ; Glass transition temperature ; Mechanics ; Miscibility ; Physical chemistry ; Radiation dose
  7. Source: Radiation Physics and Chemistry ; Vol. 96 , 2014 , pp. 12-18 ; ISSN: 0969806X
  8. URL: http://www.sciencedirect.com/science/article/pii/S0969806X13004957