生物复合材料
淀粉
生物塑料
生物高聚物
原材料
材料科学
可再生资源
高分子科学
生化工程
天然聚合物
天然纤维
纤维
复合材料
可再生能源
聚合物
复合数
废物管理
化学
食品科学
工程类
有机化学
电气工程
作者
Guilherme Frey Schütz,Sayeny de Ávila Gonçalves,Rosa Maria Vercelino Alves,Roniérik Pioli Vieira
标识
DOI:10.1016/j.ijbiomac.2024.129916
摘要
Renewable and biodegradable resources have gained increasing attention as promising alternatives to synthetic plastics. Among the diverse raw materials employed in bioplastics production, starch emerges as an attractive, low-cost, and largely available source. However, the inherent properties of starch-based materials often limit their utility across various applications, necessitating strategic modifications to enhance their performance. A common approach to boost these materials involves incorporating natural fillers into biopolymer matrices. Incorporating natural fibers within starch matrices enables the development of biocomposites with improved properties while retaining their renewable and biodegradable characteristics. This review briefly addresses fundamental aspects of starch structure, obtention, and processing, as well as the main pre-treatments of natural fibers and processing methods currently applied to produce starch-based composites. It also highlights the most recent advances in this field, elucidates the effect of the incorporation of fibers on the biocomposite properties, and discusses the critical parameters affecting the synergic combination between starch and fibers.
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