Effect of reverse pulse current density on microstructure and properties of supercritical Ni-GQDs nanocomposite coatings

IF 4.7 3区 工程技术 Q2 ELECTROCHEMISTRY Electrochemistry Communications Pub Date : 2024-02-09 DOI:10.1016/j.elecom.2024.107680
Cong Fang , Weining Lei , Tianle Xu , Haoyu Zhong , Bin He , Linglei Kong , Yiliang He
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Abstract

In this study, Ni-GQDs nanocomposite coatings were prepared by double-pulse electrodeposition under supercritical CO2 with graphene quantum dots (GQDs) as the second phase additive. The effects of supercritical CO2 conditions and reverse pulse current density on microstructure, crystal orientation, grain size, GQDs quality, mechanical properties, and corrosion resistance of Ni-GQDs nanocomposite coatings were investigated. The results show that when the reverse pulse current density is 0.8 A /dm2, the surface of Ni-GQDs-Ⅱ nanocomposite coating is compact and flat, GQDs is uniformly dispersed in the coating, and GQDs is closely bound to Ni grains. Compared with the coating prepared at normal temperature and pressure. The grain size of the Ni-GQDs-Ⅱ nanocomposite coating is 4.58 nm, and the grain size is reduced by 75.3 %. The quality of GQDs in the coating was improved. The coating hardness is 867.22 HV, which is significantly increased by 53.7 %. The roughness is 0.236 μm, which is significantly reduced by 37.2 %. The friction coefficient and volume wear were 0.262 and 3.395 × 107 μm3, respectively, which were significantly reduced by 27.4 % and 57.9 %. After electrochemical corrosion, the self-corrosion voltage of the coating was −139 mV, and the self-corrosion current density was 3.19 × 10−7 A/cm2. The self-corrosion voltage was significantly increased by 61.2 %, and the self-corrosion current density was significantly decreased by 71.2 %. The Rct value and Ndl value of the coating are 31594.53 Ω·cm2 and 0.862, respectively. Significantly increased by 226.2 % and 67.1 %, respectively. The coating has excellent mechanical properties and corrosion resistance.

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反向脉冲电流密度对超临界 Ni-GQDs 纳米复合涂层微观结构和性能的影响
本研究以石墨烯量子点(GQDs)为第二相添加剂,在超临界二氧化碳条件下通过双脉冲电沉积制备了 Ni-GQDs 纳米复合涂层。研究了超临界 CO2 条件和反向脉冲电流密度对 Ni-GQDs 纳米复合涂层的微观结构、晶体取向、晶粒尺寸、GQDs 质量、力学性能和耐腐蚀性能的影响。结果表明,当反向脉冲电流密度为 0.8 A /dm2 时,Ni-GQDs-Ⅱ 纳米复合镀层表面致密平整,GQDs 均匀地分散在镀层中,且 GQDs 与 Ni 晶粒紧密结合。与常温常压下制备的涂层相比。镍-GQDs-Ⅱ纳米复合涂层的晶粒尺寸为 4.58 nm,晶粒尺寸减小了 75.3%。涂层中 GQDs 的质量得到了改善。涂层硬度为 867.22 HV,显著提高了 53.7%。粗糙度为 0.236 μm,大幅降低了 37.2%。摩擦系数和体积磨损分别为 0.262 和 3.395 × 107 μm3,大幅降低了 27.4 % 和 57.9 %。电化学腐蚀后,涂层的自腐蚀电压为-139 mV,自腐蚀电流密度为 3.19 × 10-7 A/cm2。自腐蚀电压显著提高了 61.2%,自腐蚀电流密度显著降低了 71.2%。涂层的 Rct 值和 Ndl 值分别为 31594.53 Ω-cm2 和 0.862。分别大幅提高了 226.2 % 和 67.1 %。该涂层具有优异的机械性能和耐腐蚀性。
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来源期刊
Electrochemistry Communications
Electrochemistry Communications 工程技术-电化学
CiteScore
8.50
自引率
3.70%
发文量
160
审稿时长
1.2 months
期刊介绍: Electrochemistry Communications is an open access journal providing fast dissemination of short communications, full communications and mini reviews covering the whole field of electrochemistry which merit urgent publication. Short communications are limited to a maximum of 20,000 characters (including spaces) while full communications and mini reviews are limited to 25,000 characters (including spaces). Supplementary information is permitted for full communications and mini reviews but not for short communications. We aim to be the fastest journal in electrochemistry for these types of papers.
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