Mixed-Material Feedstocks for Cold Spray Additive Manufacturing of Metal-Polymer Composites

International Thermal Spray Conference Pub Date : 2023-05-22 DOI:10.31399/asm.cp.itsc2023p0186

J. Palumbo, R. Ramaraju, Sanjeev Chandra Matthew S. Schwenger, M. Kaminskyj, F. Haas, Joseph F. Stanzione III

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Abstract

High-performance polymers such as poly(ether ether ketone) (PEEK) are appealing for a wide variety of industrial and medical applications due to their excellent mechanical properties. However, these applications are often limited by relatively low thermal stability and conductivity compared to metals. Many methods developed to metallize polymers, including vapor deposition and thermal spray processes, can lead to poor quality control, low deposition rate, and high cost. Thus, cold spray is a promising potential alternative to rapidly and inexpensively produce polymer-metal composites. In this study, we investigated the deposition characteristics of metalpolymer composite feedstock, composed of PEEK powder with varying volume fractions of copper (Cu) flake added, onto a PEEK substrate. We prepared the Cu-PEEK composite powder in varying compositions by two methods: hand-mixing the powders and cryogenically milling the powders. Scanning electron microscopy (SEM) of the feed mixtures shows that cryogenically milling the polymer and metal powders together created uniformly distributed micron-scale domains of Cu on PEEK particle surfaces, and vice versa, as well as consolidating much of the porous Cu flake. In lowpressure cold spray, the relatively large volume fractions of PEEK in the composite mixtures allowed for lower operating temperatures than those commonly used in PEEK metallization (300-500 °C). While the deposition efficiencies of each mixture were relatively similar in single-layer experiments, deposits formed after multiple passes showed significant changes in deposition efficiency and composition in PEEK-rich feedstock mixtures. SEM of deposit surfaces and cross-sections revealed multiple co-dominant mechanisms of deposition, which affect both the porosity and final composition of the deposit. Though present in all samples analyzed, the effects of cryogenic milling were more prevalent at lower Cu concentrations.

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金属-聚合物复合材料冷喷涂增材制造的混合原料

高性能聚合物，如聚醚醚酮(PEEK)，由于其优异的机械性能，在各种工业和医疗应用中具有吸引力。然而，与金属相比，这些应用往往受到相对较低的热稳定性和导电性的限制。许多用于金属化聚合物的方法，包括气相沉积和热喷涂工艺，可能导致质量控制差，沉积速率低，成本高。因此，冷喷涂是一种极具潜力的替代方法，可以快速廉价地生产聚合物金属复合材料。在这项研究中，我们研究了金属聚合物复合原料在PEEK衬底上的沉积特性，该原料由PEEK粉末和不同体积分数的铜(Cu)片组成。采用手工混合和低温铣削两种方法制备了不同成分的Cu-PEEK复合粉末。原料混合物的扫描电镜(SEM)显示，低温铣削聚合物和金属粉末一起在PEEK颗粒表面上形成均匀分布的微米级Cu畴，反之亦然，并巩固了大部分多孔Cu片。在低压冷喷涂中，复合混合物中相对较大的PEEK体积分数允许比PEEK金属化通常使用的操作温度(300-500°C)更低的操作温度。虽然在单层实验中，每种混合物的沉积效率相对相似，但在富含peek的原料混合物中，多次经过后形成的沉积物的沉积效率和成分发生了显著变化。沉积物表面和截面的扫描电镜显示了多种共同主导的沉积机制，这些机制既影响了沉积物的孔隙度，也影响了沉积物的最终成分。虽然存在于所有分析的样品中，但低温铣削的影响在较低的Cu浓度下更为普遍。

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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International Thermal Spray Conference

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