Development and Evaluation of Multiscale Fiber-reinforced Composite Powders for Powder-bed Fusion Process

Chinese Journal of Mechanical Engineering: Additive Manufacturing Frontiers Pub Date : 2023-06-01 DOI:10.1016/j.cjmeam.2023.100079

Zhihao Wang , Meixin Zhou , Heye Xiao , Shangqin Yuan

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Abstract

The development of multiscale fiber-reinforced composite powders is an effective way to improve the mechanical properties and functionality of additively manufactured parts. Herein, a novel thermally induced precipitation process is proposed for preparing multiscale fiber-reinforced powders. A systematic evaluation was conducted to explore the main factors influencing powder morphology, powder flow, and microstructure. In the powder-forming mechanism, the polymer matrix is coated on the microfiber, and a film of carbon nanotubes covers the powder surface, which is promoted by heterogeneous nucleation. The composite powders comprised polyamide 12, carbon fiber (CF), and carbon nanotubes, which have been successfully applied in powder bed fusion processes including selective laser sintering (SLS). Smooth flow and powder deposition were observed, and the composite components obtained via SLS were well-fabricated using the optimized process parameters. A CF loading ratio of up to 66.7 wt% and homogeneous fiber distribution within the matrix were successfully achieved.

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粉末床熔合用多尺度纤维增强复合粉末的研制与评价

开发多尺度纤维增强复合材料粉末是提高添加制造零件的机械性能和功能的有效途径。本文提出了一种新的热诱导沉淀工艺来制备多尺度纤维增强粉末。对影响粉末形态、流动性和微观结构的主要因素进行了系统评价。在粉末形成机制中，聚合物基体被涂覆在微纤维上，碳纳米管薄膜覆盖在粉末表面，这是由非均匀成核促进的。该复合粉末包括聚酰胺12、碳纤维（CF）和碳纳米管，已成功应用于包括选择性激光烧结（SLS）在内的粉末床融合工艺中。观察到了光滑的流动和粉末沉积，并使用优化的工艺参数很好地制备了通过SLS获得的复合材料部件。成功地实现了高达66.7重量%的CF负载率和基质内均匀的纤维分布。

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Chinese Journal of Mechanical Engineering: Additive Manufacturing Frontiers

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