摘要：本论文以电镀法分别制备出Ni-Mo-Dy和Ni-Mo-Gd镀层，分别研究了稀土浓度（Dy3+/Gd3+）、电流密度、频率、占空比和时间、转速对Ni-Mo-Dy和Ni-Mo-Gd镀层的影响，分别利用X射线衍射（XRD）和电子扫描显微镜（SEM）对镀层进行表征。结果表明Ni-Mo-Dy镀层的较好条件为：Dy3+浓度为0.3g/L，pH=6.7，转速为350r/min，f=5000Hz，A=19.25A/dm2，占空比为0.5，t=25min；Ni-Mo-Gd镀层的较好条件为：Gd3+浓度为0.3g/L，pH=6.7,转速为350r/min，f=5000Hz，A=18.50A/dm2，占空比为0.5，t=20min。结果表明添加稀土（Dy3+/Gd3+）后，Ni-Mo-Dy和Ni-Mo-Gd镀层硬度明显比Ni-Mo合金镀层的硬度提高了10.38%和11.37%；Ni-Mo-Dy和Ni-Mo-Gd镀层中钼元素含量分别提高了27.91%和22.69%，摩擦系数分别降低了21.43%和37.5%。本文所得出的Ni-Mo-Dy镀层和Ni-Mo-Gd镀层，国内未曾有过相关报道。5629
关键词: 稀土;电镀;脉冲;镍钼合金;
Gadolinium, dysprosium in the nickel-plated molybdenum
Abstract: This article is based on plating were prepared the coating of Ni-Mo-Dy and  Ni-Mo-Gd coating. And then in the above basis, respectively, to study the rare earth concentration (Dy3+ / Gd3+), current density, frequency, duty cycle and time of the coating on the Ni-Mo-Dy and Ni-Mo-Gd coating, the Ni-Mo-conditions of the better films of Dy coating rare earth Dy3+ concentration of 0.3g / L, pH = 6.7, speed 350r/min, f = 5000Hz, A = 19.25A/dm2, duty cycle 0.5, t = 25min; of Ni the conditions of the better films of the coating-Mo-Gd rare earth of Gd3+ concentration of 0.3g / L, pH = 6.7, speed 350r/min, f = 5000Hz, A = 18.50A/dm2, the duty cycle of 0.5, t = 20min . Then two sets of best-plated piece of coating microstructure analysis, the coating component analysis of the diffraction of XRD analysis, the coating component analysis of the diffraction of SEM analysis, the coating wear analysis, the results obtained after the addition of rare earth alloy coating is obviously fine grain more detailed, the coating surface, flat, the Mo content increased, the coating hardness,wear resistance enhancement. Coating were higher molybdenum content of 10.38% and 11.37%, respectively 27.91% and abrasion resistance 22.69%. at the same time, Ni-Mo-Dy alloy plating layer and the Ni-Mo-Gd alloy coating improves the Ni-Mo alloy plating friction coefficient decreased by 21.43% and 37.5%. Experiment derived coating of Ni-Mo-Dy and Ni-Mo-Gd coatings have not had the relevant reports.
Keywords: Rare earth; Electrodeposition; Pulse; Nickel-Molybdenum Alloy;

目录
1引言    1
1.1 钼合金的性质及应用    1
1.2 钼及钼合金镀层的工艺研究现状    1
1.2.1 钼层沉积工艺研究现状    1
1.2.2 钼合金沉积工艺研究现状    2
1.3 脉冲电镀机理及其优点    3
1.3.1 脉冲电镀机理    3
1.3.2 脉冲电镀优点    4
1.4 稀土元素在电镀中的作用    4
1.5 本文主要研究内容    6
1.5.1 项目来源    6
1.5.2 研究内容    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 实验材料及装置    8
2.2.1 实验材料    8
2.2.2 实验装置    8
2.3 工艺流程    9
2.3.1 电镀液组成    9
2.3.2 电镀流程    9
2.4 电镀工艺条件的选择    11
2.4.1 电镀Ni-Mo-Dy合金工艺条件的选择    11
2.4.2 电镀Ni-Mo-Gd合金工艺条件的选择    12
2.5 镀层性能测试及表征    13
2.5.1 镀层微观形貌的观察    13 镍钼钆(镝)镀层性能的研究+文献综述:http://www.751com.cn/huaxue/lunwen_2725.html