Bio-Based Composites from Industrial By-products and Wastes as Raw Materials

R. Dinu, A. Mija
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引用次数: 1

Abstract

Innovative bio-based composites combining humins as biorefinery by-product with keratin or lignin as wastes or industrial side-products were developed. The bio-composites were prepared using three types of matrix formulations allowing the synthesis of elastic to rigid thermosets. These matrices were combined with chicken feathers powder, non-woven chicken feathers mat or lignin to produce bio-composites. A maximum quantity of bio-fillers was used, around 10 wt.%. The effect of the bio-fillers on the matrix’s crosslinking was studied by rheology and DSC. Then, the obtained materials were analyzed by TGA, DMA, tensile tests, water absorption and SEM. The results show a very good compatibility of the humins matrix with the bio-fillers, without any preliminary modification of the matrix, that is exceptional for the point of view of a composite. The overall performances of the neat matrix were maintained or improved through the composites. Therefore, bio-composites with potentially interesting thermal and mechanical properties have been synthesized. In the case of the elastic ductile matrix the Young’s modulus value was improved from 1 to 22 MPa, while for the rigid matrix the increase was from 106 to 443 or 667 MPa, in the case of composites with non-woven chicken feathers mat or lignin. To our knowledge this is the first study combining humins matrix with keratin. The obtained bio-composites are sustainable materials linked via the used raw materials to the circular economy and biomass valorization.
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以工业副产品和废弃物为原料的生物基复合材料
创新的生物基复合材料将人类作为生物炼制副产品与角蛋白或木质素作为废物或工业副产品相结合。使用三种类型的基质配方制备生物复合材料,允许合成弹性到刚性热固性材料。将这些基质与鸡毛粉、无纺布鸡毛垫或木质素结合制成生物复合材料。生物填料的最大使用量约为10%。通过流变学和DSC研究了生物填料对基质交联的影响。然后对所得材料进行TGA、DMA、拉伸试验、吸水率和扫描电镜分析。结果表明,人类基质与生物填料具有很好的相容性,无需对基质进行任何初步修饰,这对于复合材料的观点来说是例外的。通过复合材料保持或改善了整齐基体的整体性能。因此,具有潜在的有趣的热性能和力学性能的生物复合材料已经被合成。在弹性延性基体中,杨氏模量值从1提高到22 MPa,而在无纺鸡毛垫或木质素复合材料中,刚性基体的杨氏模量值从106提高到443或667 MPa。据我们所知,这是首次将人蛋白基质与角蛋白结合的研究。所获得的生物复合材料是通过使用的原材料与循环经济和生物质增值联系在一起的可持续材料。
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