Effect of Particle Size on the Physical Properties of PLA/Potato Peel Composites

Compounds Pub Date : 2024-02-01 DOI:10.3390/compounds4010006
K. Miller, Corina L. Reichert, Myriam Loeffler, Markus Schmid
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Abstract

In recent years, agricultural by-product fillers have been investigated in composites to influence the physical properties of the packaging material, increase biodegradability, and reduce costs. In general, the properties of composites are mainly influenced by the type, amount, and size of fillers. The aim of this study was to characterize potato peel particles as a filler in a poly(lactic acid) (PLA) matrix and to determine the effect of particle size on the physical properties of the composite. Therefore, different fractions of potato peel powder (0–53 μm, 125–250 μm, and 315–500 μm) were incorporated into PLA matrix via compounding and injection-molding. Microscopic analysis of the injection-molded samples revealed that the average particle shape did not differ between the different fractions. Overall, increasing the particle size of potato peel particles resulted in increased stiffness and decreased ductility. The cold crystallization temperature and water vapor transmission rate of the composites were independent of particle size but increased upon the incorporation of potato peel particles. In conclusion, the effect of particle incorporation on packaging-related properties was higher than the effect of using different particle size fractions. This means that potato peel particles, regardless of their particle size distribution, are promising fillers for composites, with the potential to improve biodegradability, maintain some level of protection for the packaged product, and reduce the cost of the composites.
粒度对聚乳酸/土豆皮复合材料物理性质的影响
近年来,人们对复合材料中的农副产品填料进行了研究,以影响包装材料的物理性质、提高生物降解性并降低成本。一般来说,复合材料的性能主要受填料的类型、数量和大小的影响。本研究的目的是对作为聚乳酸(PLA)基质填料的马铃薯皮颗粒进行表征,并确定颗粒大小对复合材料物理性质的影响。因此,将不同馏分的马铃薯皮粉(0-53 μm、125-250 μm 和 315-500 μm)通过共混和注射成型的方法加入到聚乳酸基质中。注射成型样品的显微分析表明,不同馏分的平均颗粒形状没有差异。总的来说,增加土豆皮颗粒的粒径会导致刚度增加、延展性降低。复合材料的冷结晶温度和水蒸气透过率与颗粒大小无关,但在加入马铃薯皮颗粒后会升高。总之,掺入颗粒对包装相关性能的影响高于使用不同粒径组分的影响。这意味着马铃薯皮颗粒,无论其粒度分布如何,都是复合材料中很有前景的填料,有可能改善生物降解性,对包装产品保持一定程度的保护,并降低复合材料的成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.30
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