Biodegradable packaging promises a more environmentally friendly future. Nevertheless, a single biopolymer often lacks of some important properties. In order to contribute to this challenge, biodegradable bilayer films from poly(lactic acid) (PLA) and MaterBi®were prepared in this work and compared with monolayer films obtained with both the polymers. The prepared films were fully characterized through morphological, mechanical, thermal, chemical, optical and water contact angle analyses. Furthermore, the hydrolytic degradation of monolayer and bilayer films was studied by performing tests at three different pH. The morphological analysis revealed that PLA/MaterBi bilayer films show good interfacial adhesion, even under the stretching in the mechanical tests. The bilayer film showed a higher stiffness than that of MaterBi and a larger elongation at break in comparison with PLA. The degradation tests revealed that weight loss is faster at pH 10 for all the systems and that at this pH the bilayer film show the highest degradation rate.

Scaffaro, R., Sutera, F., Botta, L. (2018). Biopolymeric bilayer films produced by co-extrusion film blowing. POLYMER TESTING, 65, 35-43 [10.1016/j.polymertesting.2017.11.010].

Biopolymeric bilayer films produced by co-extrusion film blowing

Scaffaro, Roberto;Sutera, Fiorenza;Botta, Luigi
2018-01-01

Abstract

Biodegradable packaging promises a more environmentally friendly future. Nevertheless, a single biopolymer often lacks of some important properties. In order to contribute to this challenge, biodegradable bilayer films from poly(lactic acid) (PLA) and MaterBi®were prepared in this work and compared with monolayer films obtained with both the polymers. The prepared films were fully characterized through morphological, mechanical, thermal, chemical, optical and water contact angle analyses. Furthermore, the hydrolytic degradation of monolayer and bilayer films was studied by performing tests at three different pH. The morphological analysis revealed that PLA/MaterBi bilayer films show good interfacial adhesion, even under the stretching in the mechanical tests. The bilayer film showed a higher stiffness than that of MaterBi and a larger elongation at break in comparison with PLA. The degradation tests revealed that weight loss is faster at pH 10 for all the systems and that at this pH the bilayer film show the highest degradation rate.
2018
Scaffaro, R., Sutera, F., Botta, L. (2018). Biopolymeric bilayer films produced by co-extrusion film blowing. POLYMER TESTING, 65, 35-43 [10.1016/j.polymertesting.2017.11.010].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/270465
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