Effect of chitosan incorporation on crystallinity, mechanical and rheological properties, and photodegradability of PE/TPS blends

Chitosan is a well-known biodegradable biopolymer, which possesses antimicrobial properties. In this study, the effect of chitosan incorporation on the morphology; thermal, mechanical, and rheological properties; and antibacterial and photodegradation behaviors of polyethylene (PE)/thermoplastic starch (TPS) blends were examined. PE/TPS blends were compatibilized with low-density PE-grafted maleic anhydride copolymer (PE-g-MA) compatibilizer. Scanning electron microscopy (SEM) and tensile test indicated that the addition of chitosan in powder form has a devastating effect on both mechanical and morphological properties of the blends. Therefore, chitosan was plasticized with acetic acid and glycerol (2 wt% chitosan dissolved in acetic acid/glycerol solution) prior to addition to the blends, which considerably improved the mechanical properties of the blends. Dynamic rheological experiments revealed a decrease in the complex viscosity of the blends with the addition of plasticized chitosan compared with unplasticized chitosan. SEM micrographs demonstrated more homogenous microstructure for the blends containing plasticized chitosan and PE-g-MA compatibilizer. Differential scanning calorimetry results indicated that unplasticized chitosan acts as a nucleation agent for PE crystallization. Antibacterial analysis indicated that the incorporation of chitosan had a significant effect on preventing from bacterial population growth. The major part of this article was to study the effect of ultraviolet (UV) exposure on the chemical structure and mechanical properties of the blends, using Fourier transform infrared spectroscopy and tensile properties examination. The results indicated that the slight amount of chitosan may significantly improve the photostability of PE/TPS blends against UV degradation. However, PE-g-MA compatibilizer dramatically decreased the UV resistance of the blends.