(10)

Tobacco is one of China's key economic crops, known for its wide distribution, high yield, and renewability. Tobacco stalk fibers (TSFs) share a similar chemical composition to wood fibers, making them a potential reinforcement for plant fiber composites. However, the waste tobacco stalk fibers raw material utilization rate is very low, and wasteful phenomenon is very serious. In this study, we prepared biodegradable TSF/PBAT composites using waste tobacco stalk fibers and polybutylene adipate-co-terephthalate (PBAT) through melt blending and injection molding techniques. The effects of different modifiers on the performance of the composites were systematically investigated, with a particular focus on their influence on the degradation behavior. The results showed that the waste tobacco straw fiber can be used as a reinforcing fiber for PBAT. The addition of modifiers significantly improved the mechanical properties of the composites and effectively slowed down the degradation rate in the soil environment. Among the modifiers, the combined use of maleic anhydride (MA) and hydroxylated multi-walled carbon nanotubes (OM) produced the best results, with the tensile strength and flexural strength of the composite reaching 17.3 MPa and 28.0 MPa, respectively-representing increases of 74.7% and 57.3% compared to the untreated composite. After 16 weeks of soil degradation, the mass loss rate of the MA/OM-modified composite decreased from 10.50 to 6.34%. This study provides a comprehensive exploration of the entire lifecycle of TSF-reinforced PBAT composites and offers important theoretical support for the resource utilization and value-added application of waste tobacco stalks in the field of green composite materials.

来源平台：POLYMER BULLETIN