Gamma Irradiation Effect on Mechanical and Barrier (original) (raw)

With the increasing environmental concern, replacing the traditional non-biodegradable synthetic materials for biodegradable products is the challenge for many researchers and companies. Starch is considered one of the most promising natural polymers for packaging application because of its renewability, biodegradability and low cost. However, there are some limitations in developing starch-based products due to its poor mechanical properties and high moisture sensitivity. These properties can change when subjected to any process of sterilization, especially by gamma radiation. This work aims to study the mechanical and barrier properties of cassava starch in front of gamma radiation, for cobalt-60 ( 60 C0), when subjected to doses of 3 kGy, 6 kGy, 12 kGy and 25 kGy for the development of packaging, and then it compares the results to those of conventional packaging, as the expanded polystyrene (styrofoam) and paper cards. The starch foams (packaging) were obtained by thermopressing process. After baking, the foams were conditioned for one month at 23°C and 60% relative humidity (RH) before mechanical and barrier testing. Polyethyleneglycol (PEG 300) was selected as plasticizer. The packaging in which the cassava starch was subjected to irradiation had higher resistance to compression and higher flexibility compared to that in which the starch had not been irradiated. The expanded polystyrene and paper card packages are less resistant to compression than the cassava starch packages. The styrofoam is more flexible than the paper cards, which in turn is more flexible than packages of starch. After irradiation, the barrier properties of the foams were improved.