关于碳包银改善三电性能和润湿性能的综合研究

C Pub Date : 2024-02-04 DOI:10.3390/c10010016
Bruno Alderete, F. Mücklich, S. Suárez
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引用次数: 0

摘要

电气化程度的提高大大增加了对高效耐用电接触材料的需求。碳纳米颗粒(CNP)是一种很有前途的涂层材料,因为它们具有固有的传输特性(从而最大限度地减少对导电性的影响)、经证实的固体润滑性(可能改善摩擦学性能)和疏水润湿行为(可能提供大气保护)。在本研究中,通过在镀银表面电泳沉积碳纳米管和纳米角涂层,然后进行三电和润湿表征。所提出的涂层不会对基底的导电性产生负面影响,其电阻值与未涂层的参考值相当。三电特性分析表明,涂层可减少摩擦测试中的粘合剂磨损,同时保持稳定恒定的电接触电阻。此外,CNP 涂层表面对水具有疏水性润湿行为,石墨和碳纳米管 (CNT) 涂层接近超疏水性。在无柄水滴测试中,长时间接触水滴会导致接触角(CA)测量值减小;但 CNT 涂层在五分钟后的 CA 值减小仅约为 5°。因此,CNP(特别是 CNT)涂层在用作电气触点的磨损和大气保护屏障方面显示出良好的应用效果。
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Comprehensive Study on Carbon-Coated Silver for Improved Tribo-Electrical and Wetting Performance
The rise in electrification has considerably increased the demand for high-efficiency and durable electrical contact materials. Carbon nanoparticles (CNP) are a promising coating material due to their intrinsic transport properties (thus minimizing the impact on conductivity), their proven solid lubricity (potentially improving tribological performance), and their hydrophobic wetting behavior (potentially providing atmospheric protection). In this study, carbon nanotube and nanohorn coatings are produced via electrophoretic deposition on silver-plated surfaces, followed by tribo-electrical and wetting characterization. The proposed coatings do not negatively affect the conductivity of the substrate, showing resistance values on par with the uncoated reference. Tribo-electrical characterization revealed that the coatings reduce adhesive wear during fretting tests while maintaining stable and constant electrical contact resistance. Furthermore, CNP-coated surfaces show a hydrophobic wetting behavior toward water, with graphite and carbon nanotube (CNT) coatings approaching super-hydrophobicity. Prolonged exposure to water droplets during sessile drop tests caused a reduction in contact angle (CA) measurement; however, CNT coatings’ CA reduction after five minutes was only approximately 5°. Accordingly, CNP (specifically CNT) coatings show auspicious results for their application as wear and atmospheric protective barriers in electrical contacts.
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