Rheological Behaviour of ABS/Metal Composites with Improved Thermal Conductivity for Additive Manufacturing

Designs Pub Date : 2023-11-17 DOI:10.3390/designs7060133
V. F. Moritz, Harald Prévost, Janaína S. Crespo, Carlos A. Ferreira, D. Devine
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Abstract

Metal-reinforced polymer composites are suitable materials for applications requiring special thermal, electrical or magnetic properties. Three-dimensional printing technologies enable these materials to be quickly shaped in any design directly and without the need for expensive moulds. However, processing data correlating specific information on how the metal particles influence the rheological behaviour of such composites is lacking, which has a direct effect on the processability of these composites through melt processing additive manufacturing. This study reports the compounding and characterisation of ABS composites filled with aluminium and copper particulates. Experimental results demonstrated that the tensile modulus increased with the incorporation of metal particles; however, there was also an intense embrittling effect. Mechanical testing and rheological analysis indicated poor affinity between the fillers and matrix, and the volume fraction proved to be a crucial factor for complex viscosity, storage modulus and thermal conductivity. However, a promising set of properties was achieved, paving the way for polymer–metal composites with optimised processability, microstructure and properties in melt processing additive manufacturing.
用于增材制造的具有更高导热性的 ABS/金属复合材料的流变行为
金属增强聚合物复合材料适用于需要特殊热、电或磁特性的应用。三维打印技术使这些材料能够直接按照任何设计快速成型,而无需昂贵的模具。然而,有关金属颗粒如何影响此类复合材料流变行为的具体信息的相关加工数据还很缺乏,这直接影响了这些复合材料通过熔融加工快速成型制造的加工性。本研究报告介绍了填充铝和铜微粒的 ABS 复合材料的复合和表征。实验结果表明,金属微粒的加入使拉伸模量增加,但同时也产生了强烈的脆化效应。机械测试和流变分析表明,填料与基体之间的亲和性较差,体积分数被证明是影响复合粘度、储存模量和热导率的关键因素。不过,这种复合材料还是实现了一系列有前景的性能,为在熔融加工快速成型制造过程中实现具有优化加工性、微观结构和性能的聚合物-金属复合材料铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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