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    摘要:本论文采用脉冲电镀法制备Ni-Mo-Er和Ni-Mo-Ce镀层。考察不同Er3+浓度、Ce3+浓度、电流密度、频率、占空比、电镀时间以及转速对镀层硬度的影响。利用X射线衍射、电子扫描显微镜,以及摩擦磨损量分析仪对镀层进行表征。研究结果表明,制备Ni-Mo-Er镀层的较佳工艺条件为pH为6.7、温度为25℃,Er3+离子浓度为0.3g/L、电流密度为19.25A/dm2、反应时间为20min、转速为350r/min、占空比为0.6、脉冲频率为5000Hz,获得的Ni-Mo-Er镀层硬度为759.36HV;制备Ni-Mo-Ce镀层的较佳工艺条件为Ce3+离子浓度为0.3g/L、电流密度为18.50A/dm2、反应时间为20min、转速为300r/min、占空比为0.5、脉冲频率为2000Hz,获得的Ni-Mo-Ce镀层硬度为731.58HV。Ni-Mo-Er比Ni-Mo-Ce镀层硬度增加3.80%。Ni-Mo-Er和Ni-Mo-Ce镀层比Ni-Mo结节更少,表面更平整。镀层中钼元素含量分别高7.27%和0.96%,耐磨性分别提高7.97%和16.81%。同时,Ni-Mo-Er和Ni-Mo-Ce合金镀层改善了Ni-Mo合金镀层的摩擦系数,使其分别降低11.84%和6.89%。目前,脉冲电镀Ni-Mo-Er和Ni-Mo-Ce镀层的研究还未见报道。关键词:脉冲电镀;Er;Ce;镍钼合金    9132
    Preparation of Ni-Mo-Er(Ce) coating
    Abstract:This article was prepared by pulse plating Ni-Mo-Er and Ni-Mo-Ce coating. Effects of different concentrations of Er3+, Ce3+ concentration, current density, frequency, duty cycle, plating time and speed to the coating hardness were study. In addition, the use of X-ray diffraction, scanning electron microscopy, as well as the amount of friction and wear of the coatings were characterized by the analyzer. The results show that the preparation of Ni-Mo-Er coating process conditions preferably on a pH of 6.7, a temperature of 25℃, Er3+ ion concentration of 0.3g/L, the current density of 19.25A/dm2, the reaction time of 20min, speed of 350r/min, the duty cycle of 0.6, the pulse frequency of 5000Hz, obtained Ni-Mo-Er coating hardness that was 759.36HV; Preparation of Ni-Mo-Ce preferred coating process conditions Ce3+ ion concentration of 0.3g/L, current density of 18.50A/dm2, the reaction time of 20min, speed of 300r/min, duty cycle of 0.5, the pulse frequency of 2000Hz, obtained Ni-Mo-Ce coating hardness that was 731.58HV.The hardness of Ni-Mo-Er coating was 3.80 percent harder than the Ni-Mo-Ce coating.The nodules on the the plating layer of the Ni-Mo-Er and the Ni-Mo-Ce coating were less than the Ni-Mo coating, while the surfaces were more smooth.The molybdenum content of the coatings were 7.27% and 0.96% higher than Ni-Mo coating, and abrasion resistance respectively of 7.97% and 16.81%. At the same time, Ni-Mo-Er alloy plating layer and the Ni-Mo-Ce alloy coating improved the friction coefficient of Ni-Mo alloy plating decreased by 11.84% and 10.42%. Currently, the study on pulse plating Ni-Mo-Er and Ni-Mo-Ce coating has not been reported.
    Keywords: Pulse electroplating; Er; Ce; Nickel-molybdenum alloy
     目  录
    1 引言    1
    1.1 镍、钼及钼合金    1
    1.1.1 镍的物理化学性质    1
    1.1.2 钼的物理化学性质    1
    1.1.3 钼合金的性质及应用    2
    1.2 镍钼合金的制备    3
    1.3脉冲电镀的主要工艺研究和发展现状    3
    1.4镍钼电镀中添加稀土的主要研究与发展状况    4
    1.4.1 稀土的介绍    4
    1.4.2 稀土在电镀中的作用    4
    1.4.3 稀土添加剂发展状况    5
    1.5主要研究的内容    6
    2 实验部分    7
    2.1 实验试剂与设备    7
    2.1.1 实验试剂    7
    2.1.2 实验设备    7
    2.2 实验装置与材料    8
    2.2.1 实验装置    8
    2.2.2 实验材料    8
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