最广泛使用的生物基和生物降解塑料材料的可回收性展望

Macromol Pub Date : 2024-06-07 DOI:10.3390/macromol4020023
M. Coltelli, V. Gigante, Laura Aliotta, Andrea Lazzeri
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引用次数: 0

摘要

本章重点讨论可再生塑料和可生物降解塑料的可回收性,考虑从目前市场上最常见的聚合材料中回收物质(机械或化学回收)。生物基塑料和可堆肥塑料是碳中性的,因此不会对温室气体排放产生重大影响。不过,回收利用也是有益的,因为它可以延长材料的生命周期,从而延长碳的储存时间,直至最终堆肥。化学或机械再循环选择与生物塑料再加工的可能性有关,而不会造成有害的特性损失,也与收集废物后选择生物塑料同质部分的能力有关。此外,生物可降解生物塑料的不同结构特征导致了不同的化学回收机会,以及在回收所需的再加工操作过程中的不同行为。本综述对所有这些方面进行了系统讨论,并考虑了可生物降解的生物塑料及其与天然纤维的混合物和复合材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recyclability Perspectives of the Most Diffused Biobased and Biodegradable Plastic Materials
The present chapter focuses on the recyclability of both renewable and biodegradable plastics, considering the recovery of matter (mechanical or chemical recycling) from the polymeric materials currently most diffused on the market. Biobased and compostable plastics are carbon neutral; thus, they do not contribute significantly to greenhouse gas (GHG) emissions. Nevertheless, recycling can be beneficial because it allows a prolongation of the material life cycle so that carbon is stored for a longer time up to the final composting. The chemical or mechanical recycling option is linked both to the possibility of reprocessing bioplastics without detrimental loss of properties as well as to the capability of selecting homogenous fractions of bioplastics after waste collection. Moreover, the different structural features of biodegradable bioplastics have resulted in different chemical recycling opportunities and also in different behaviors during the reprocessing operations necessary for recycling. All these aspects are discussed systematically in this review, considering biodegradable bioplastics, their blends and composites with natural fibers.
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CiteScore
5.20
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