Surface properties of graphene platelets/nickel composite coatings

M. Li, Xiaoping Zhang, Yaqin Tian, Jie Ren, Jian Liu, Sai Priya Munagala, K. Jiang
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引用次数: 1

Abstract

Nickel has been widely used as a strong and highly wear resistant material in super alloys, electronics, gas turbines, and automotive industry to name a few. Further improvements on some properties, such as wear and corrosion resistances, of nickel alloys and composites have been performed. The appearance of graphene provides a new possibility to further the exploration of a new nickel composite to suit particular applications. In this paper, research on electrodeposition of graphene platelets (GPLs) and laminates is reported in an effort to study the potential of the nickel composites in electrical conductivity and hardness for applications. The presented research focusses on the electrodeposition of GPL in Ni matrix and characterisation of the composite properties. SEM analysis showed homogenous dispersion of the GPL over the Ni Surface. Characterisation was also carried out by hardness measurements and conductivity test. The results are compared with each other and with pure Ni samples. The comparison shows an increased hardness and conductivity of the surface with the increase in number of graphene layers. This work opens a new window of applications and provides a way to improvise Ni components for better.
石墨烯薄片/镍复合涂层的表面性能
镍作为一种强而耐磨的材料被广泛应用于超级合金、电子、燃气轮机和汽车工业等领域。镍合金和复合材料的某些性能,如耐磨性和耐腐蚀性得到了进一步的改进。石墨烯的出现为进一步探索适合特定应用的新型镍复合材料提供了新的可能性。本文报道了电沉积石墨烯薄片(GPLs)和层压板的研究,以研究镍复合材料在电导率和硬度方面的应用潜力。本文主要研究了GPL在Ni基体上的电沉积及其复合材料性能的表征。SEM分析表明GPL在Ni表面呈均匀分散。还通过硬度测量和电导率测试进行了表征。结果与纯Ni样品进行了比较。比较表明,随着石墨烯层数的增加,表面的硬度和导电性增加。这项工作打开了一个新的应用窗口,并提供了一种更好地即兴制作Ni组件的方法。
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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