Herin, a biodegradable bioplastic composite packaging film was prepared by utilizing bamboo powder partially in replace of plastic. Bamboo powder lignocellulose and polybutylene adipate terephthalate (PBAT) resin granules were mixed together with certain percentage to form bamboo-plastic complex, and then through hotpressed to obtain the bamboo/PBAT bioplastic composite films. The effect of bamboo powder content on overall properties of the composite film was systematically investigated. Results showed that the addition of bamboo powder could greatly improve the mechanical properties of composite films, especially the tensile strength and elastic modulus increased by 18.90 %, 251.58 %, respectively. Besides, the bioplastic composite film exhibited superior water resistance including the high water contact angle value of 108.13 degrees, low water absorption rate (2.38 %), and water absorption thickness expansion rate (1.08 %) with 10.0 % bamboo powder content. Notably, the enhanced bonding between bamboo powder and PBAT contributed to the excellent gas barrier performance (1.48 x 10- 2 cm3 & sdot;m/(m2 & sdot;24 h & sdot;0.1 MPa)). With the increase of bamboo powder addition, the melt flow rate of the composite was increased, indicating the improved processing performance. More importantly, the bamboo/PBAT bioplastic composite film showed good packaging preservation ability for strawberry and excellent biodegradability in soil, presenting feasible and green alternatives to biodegradable plastic food packaging material.

来源平台：INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES