米基生物复合材料:稻壳粒度对米糠基生物复合材料物理和生物降解特性的影响

IF 2.7 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Journal of Material Cycles and Waste Management Pub Date : 2024-06-28 DOI:10.1007/s10163-024-02009-2
Felipe Marrero Nunes, Jorge André Ribas Moraes, Ênio Leandro Machado, Carlos Alexandre Lutterbeck, Tiele Medianeira Rizzetti, Ruth Marlene Campomanes Santana
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引用次数: 0

摘要

我们的研究提出了一种应用于农用工业副产品生物复合材料制造的创新材料,该材料由 70% 的生米糠、15% 不同粒径(1 毫米、500 微米、250 微米和 250 微米)的稻壳纤维和 15% 的甘油作为增塑剂构成。这些材料由人工混合,然后在液压机中通过热压成型,并使用托盘形式进行加热。对模塑部件进行了生物降解性、接触角、吸水性和抗冲击性测试。结果表明,与仅使用米糠生产的生物复合材料相比,加入稻壳纤维对改善所评估的性能有很大影响。本研究中使用的不同粒径的稻壳纤维对评估性能的影响较小。不过,值得注意的是,粒度为 250 微米和 500 微米的生物复合材料在堆肥实验中表现出了显著的改进,如冲击性能更强、初始接触角更大、质量损失更小。
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Rice-based biocomposites: the influence of the rice husk granulometry on physical and biodegradation properties of rice bran matrix biocomposites

Our study presents an innovative material for application in the construction of biocomposites produced from agro-industrial by-products, constituted by the matrix of 70% raw rice bran, reinforced with 15% of rice husk fibers of different particle sizes (> 1 mm, > 500 µm, > 250 µm and < 250 µm) and 15% glycerol as a plasticizer. The materials were manually mixed and then molded by thermal compression in a hydraulic press with heating using a tray format. The molded parts were submitted to tests of biodegradability, contact angle, water absorption and impact resistance. The obtained results showed the influence of the incorporation of the rice husk fibers in the improvement of the evaluated properties when compared to the biocomposite produced only with rice bran. The different particle sizes of the rice husk fibers used in this study presented minor influence on the evaluated properties. Nevertheless, it should be noted that biocomposites with grain sizes > 250 µm and < 500 µm showed significant improvements, such as greater impact performance, higher initial contact angle and minor mass losses in composting experiments.

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来源期刊
CiteScore
5.30
自引率
16.10%
发文量
205
审稿时长
4.8 months
期刊介绍: The Journal of Material Cycles and Waste Management has a twofold focus: research in technical, political, and environmental problems of material cycles and waste management; and information that contributes to the development of an interdisciplinary science of material cycles and waste management. Its aim is to develop solutions and prescriptions for material cycles. The journal publishes original articles, reviews, and invited papers from a wide range of disciplines related to material cycles and waste management. The journal is published in cooperation with the Japan Society of Material Cycles and Waste Management (JSMCWM) and the Korea Society of Waste Management (KSWM).
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