生物降解性更强的农副产品填充聚乳酸生物复合材料:亚麻籽粉和油菜籽秸秆的影响

IF 5.3 Q2 MATERIALS SCIENCE, COMPOSITES
Sándor Kálmán Jakab , Tej Singh , Imre Fekete , László Lendvai
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引用次数: 0

摘要

这项研究的目的是将聚乳酸(PLA)与亚麻籽粉(FSM)和油菜籽秸秆(RSS)这两种农副产品结合起来,开发 "绿色 "材料。天然填料(0-20 wt.%)通过挤压与聚乳酸混合,然后注塑成试样。对样品的热性能、形态、机械性能、物理特性和生物降解性进行了分析。使用差示扫描量热法(DSC)分析了热性能和结晶度,使用扫描电子显微镜(SEM)研究了形态。机械性能通过拉伸、弯曲和冲击测量进行表征,表面硬度则通过邵氏硬度测试进行评估。此外,还检测了样品的吸水性和生物降解性。DSC 测量显示了两种生物填料的成核效应。根据拉伸试验,发现生物复合材料的刚度有了很大提高,其杨氏模量比纯聚乳酸(2.5 GPa)高出 16%。然而,这是以拉伸强度为代价的,即使在含有最低量(2.5 wt.%)FSM 的情况下,拉伸强度也从 56 兆帕下降到 51 兆帕。强度下降的原因是成分之间的粘附力有限,这一点也得到了 SEM 图像的证实。即使含有 2.5 wt.%的生物填料,硬度也会略有提高(1-2%),而且在填料含量较高时,硬度也会保持在这一水平。实验室规模的堆肥试验表明,两种填料都能促进生物降解,而 FSM 更胜一筹。在含有 10-20 wt.% FSM 的情况下,分解速度是纯聚乳酸的两倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Agricultural by-product filled poly(lactic acid) biocomposites with enhanced biodegradability: The effect of flax seed meal and rapeseed straw

The purpose of this research was to develop “green” materials by combining poly(lactic acid) (PLA) with two agricultural by-products, namely flax seed meal (FSM) and rapeseed straw (RSS). The natural fillers (0–20 wt.%) were mixed with PLA through extrusion and then injection molded into specimens. The samples were analyzed for their thermal, morphological, mechanical, and physical features and biodegradability. Thermal properties and crystallinity were analyzed using Differential Scanning Calorimetry (DSC), while the morphology was investigated by Scanning Electron Microscopy (SEM). Mechanical properties were characterized through tensile, flexural, and impact measurements, while surface hardness was evaluated by Shore D tests. Water absorption and biodegradability of the samples were also examined. DSC measurements revealed a nucleating effect of both bio-fillers. Based on the tensile tests, major improvement in stiffness was found with the biocomposites having up to ∼16 % higher Young's modulus than neat PLA (2.5 GPa). It came, however, at the cost of tensile strength, which decreased from 56 to 51 MPa even in the presence of the lowest amount (2.5 wt.%) of FSM. Loss in strength was due to the limited adhesion between the components, as also supported by SEM images. The hardness slightly (1–2 %) improved in the presence of even 2.5 wt.% bio-filler and it remained at that level at higher filler loading as well. Laboratory-scale composting revealed that both fillers facilitated biodegradation with FSM being superior. In the presence of 10–20 wt.% FSM, the rate of decomposition was found to be twice as fast compared to neat PLA.

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来源期刊
Composites Part C Open Access
Composites Part C Open Access Engineering-Mechanical Engineering
CiteScore
8.60
自引率
2.40%
发文量
96
审稿时长
55 days
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