周言敏,李建芳.超声条件下脉冲电镀 Ni-纳米 Al2 O3 复合镀层及其显微硬度研究[J].表面技术,2015,44(5):53-57,82.
ZHOU Yan-min,LI Jian-fang.Research on Microhardness of Ni-Nano Al2O3 Composite Coatings Prepared by Pulse Electroplating under Ultrasound Condition[J].Surface Technology,2015,44(5):53-57,82 |
| 超声条件下脉冲电镀 Ni-纳米 Al2 O3 复合镀层及其显微硬度研究 |
| Research on Microhardness of Ni-Nano Al2O3 Composite Coatings Prepared by Pulse Electroplating under Ultrasound Condition |
| 投稿时间:2014-11-23 修订日期:2015-05-20 |
| DOI:10.16490/j.cnki.issn.1001-3660.2015.05.010 |
| 中文关键词: 显微硬度 Ni-纳米 Al2O3 复合镀层 平均电流密度 占空比 频率 施镀时间 |
| 英文关键词:microhardness Ni-nano Al2O3 composite coating average current density duty cycle frequency electroplating time |
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| 中文摘要: |
| 目的 优选脉冲参数,以获得具有较高显微硬度的复合镀层。 方法 超声条件下,采用脉冲电镀方法制备 Ni-纳米 Al2O3 复合镀层。 以显微硬度作为性能指标,对比考察平均电流密度、占空比、频率和施镀时间的影响。 结果 Ni-纳米 Al2O3 复合镀层的显微硬度随着平均电流密度升高,占空比增大,频率升高,均呈现出先增后减的趋势,而随着施镀时间延长,呈现出近似递减的趋势。 结论 在平均电流密度 8 A/ dm2、占空比 0. 6、频率 1. 5 kHz、施镀时间 3 min 的条件下,制备的 Ni-纳米 Al2O3 复合镀层显微硬度最高,约为 427. 1HV。 较高复合量的纳米微粒有效起到了弥散强化和细晶强化作用,改善了复合镀层结构致密程度,进而提高了显微硬度。 |
| 英文摘要: |
| Objective To optimize pulse parameters in order to prepare the composite coating with high microhardness. Methods Ni-nano Al2O3 composite coatings were prepared by pulse electroplating under ultrasound condition, and the influences of average current density, duty cycle, frequency and electroplating time on the microhardness were also investigated. Results The microhardness of Ni-nano Al2O3 composite coatings increased first and then decreased with the increase of average current density, duty cycle and frequency, and it tended to decrease approximately with the electroplating time prolonging. Conclusion The Ni-nano Al2O3 composite coating prepared under the condition of average current density 8 A/ dm2, duty cycle 0. 6, frequency 1. 5 kHz and electroplating time 3 min had the highest microhardness of about 427. 1HV. It was concluded that nano Al2O3 particles of high composite quantity had effects of dispersion strengthening and grain refinement strengthening and improved the density of composite coating structure, thus improving microhardness. |
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