用于 3D 打印的可生物降解天然聚合物和纤维:加工、表征和先进应用的整体视角

M.A. Shadab Siddiqui , M.S. Rabbi , Radif Uddin Ahmed , Md. Maruf Billah
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引用次数: 0

摘要

可生物降解的天然聚合物和纤维具有可持续发展、生物相容性和打印基质的独特性能,可用于不同的应用领域,因此可为三维打印带来革命性的变化。这篇综述文章介绍了纤维素、海藻酸盐、淀粉、胶原蛋白、丝绸、壳聚糖和明胶等天然聚合物作为打印成分的形式。此外,文章还介绍了大麻、黄麻、亚麻和竹子等各种天然纤维在 3D 打印中的独特特性和优势。源自大自然的增强材料注入聚乳酸、ABS 和 PP 等聚合物基质后,可提供更好的拉伸强度、模量和挠曲性能。以挤压为基础的方法,包括熔融沉积建模(FDM)/熔融长丝制造(FFF),是天然聚合物和纤维复合材料三维打印中应用最广泛的技术,主要应用于医疗和工业领域。尽管存在均匀打印性、界面粘附性和机械性能相关问题,但天然聚合物和纤维在三维打印中的应用前景非常广阔。为达到所需的特性、功能和性能,优化材料成分、加工参数和后处理技术的研究正在快速进行。本综述向从事三维打印的研究人员和工程师概述了与可生物降解天然聚合物和纤维相关的巨大潜力,以便在各种应用中设计创新、可持续和高性能的产品,从而为更环保、更可持续的未来做出贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biodegradable natural polymers and fibers for 3D printing: A holistic perspective on processing, characterization, and advanced applications
The biodegradable natural polymers and fibers could be suggested to revolutionize 3D printing as sustainable, biocompatible, and unique properties in the print matrix for different applications. This review article covers the natural polymers in the form of cellulose, alginate, starch, collagen, silk, chitosan, and gelatin as printing constituents. Furthermore, it includes various natural fibers such as hemp, jute, flax, and bamboo with unique characteristics and advantages in 3D printing. Reinforcements derived from nature have provided better tensile strength, moduli, and flexural properties when infused into polymer matrices, such as PLA, ABS, and PP. Extrusion-based methods, comprising Fused Deposition Modeling (FDM)/Fused Filament Fabrication (FFF), are the most applied techniques of 3D printing for natural-polymer and fiber composites with a principal application in the medical and industrial domains. The future of natural polymers and fibers in 3D printing is becoming very promising despite uniform printability, interfacial adhesion, and mechanical property-related issues. Research in optimizing material composition, processing parameters, and post-processing techniques goes apace to attain the required properties, functionality, and performance. This review provides an outline to researchers and engineers working on 3D printing on the immense potential associated with biodegradable natural polymers and fibers for designing innovative, sustainable, and high-performance products in various applications that contribute to a greener and more sustainable future.
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