AI Article Synopsis

  • The study investigates the mechanical and water vapor barrier properties of biodegradable films made from radiation-processed guar gum.
  • Films irradiated up to 500 Gy exhibited significantly higher tensile strength than non-irradiated films due to improved polymer structure organization.
  • However, tensile strength decreased at doses exceeding 500 Gy, while water vapor barrier properties improved by up to 15% at lower radiation doses.

Article Abstract

Mechanical and water vapor barrier properties of biodegradable films prepared from radiation processed guar gum were investigated. Films prepared from GG irradiated up to 500 Gy demonstrated significantly higher tensile strength as compared to non-irradiated control films. This improvement in tensile strength observed was demonstrated to be due to the ordering of polymer structures as confirmed by small angle X-ray scattering analysis. Exposure to doses higher than 500 Gy, however, resulted in a dose dependent decrease in tensile strength. A dose dependent decrease in puncture strength with no significant differences in the percent elongation was also observed at all the doses studied. Water vapor barrier properties of films improved up to 15% due to radiation processing. Radiation processing at lower doses for improving mechanical and barrier properties of guar based packaging films is demonstrated here for the first time.

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http://dx.doi.org/10.1016/j.carbpol.2013.07.041DOI Listing

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