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高频脉冲电源参数对Fe-ZrO_2复合电沉积镀层纳米含量的影响

Effects of High Frequency Pulse Power Parameters of Fe-ZrO_2 Composite Electrodeposition Coating Surface Nano Content
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摘要 为改善低温镀铁工艺镀层的耐磨损耐腐蚀性能,提高镀层表面硬度,以GKDM系列高频脉冲电镀电源为实验复合电沉积工艺电源并配合超声-机械搅拌制备纳米Fe-ZrO2镀层。研究了高频脉冲电源参数:峰值电流导通(TON)、关闭(TOFF)时间;一组正脉冲(TF)负脉冲(TR)的工作时间对镀层表面纳米含量的影响。结果表明当GKDM系列高频脉冲电源TON=20?0.1 ms,TOFF=80?0.1 ms时,纳米沉积分布均匀致密,质量分数高。 In order to improve the corrosion and wear of low-temperature iron plating coatings and improve the surface hardness of the coating, GKDM series high-frequency pulse plating power as the experimental composite electrodeposition process power, and with ultrasound - mechanical stirring Nano Fe-ZrO2 coating was made. the parameters of High-frequency pulse power were studied: peak current conduction (TON) closing (TOFF) time; a positive pulse of working (TF) time, a negative pulse of working time impacting on the content of the coating surface nano. The results showed that when TON of the GKDM series high frequency pulse power was 20×0.1 ms, TOFF was 80×0.1 ms, Nano Deposition evenly distributed and dense, quality scores was high.
作者 闫帅 王元刚 宁智 赵子云 吴蒙华
机构地区 大连大学机械工程学院
出处 《大连大学学报》 2013年第6期6-8,共3页 Journal of Dalian University
基金 国家自然科学基金项目(51005027) 辽宁省高等学校杰出青年学者成长计划项目(LJQ2012106) 辽宁省教育厅一般项目(L2012446)
关键词 低温镀铁 GKDM系列高频脉冲电源 复合电沉积 峰值电流 正脉冲 负脉冲 low-temperature iron plating coatings GKDM series high-frequency pulse plating power composite electrodeposition process peak current positive pulse negative pulse
分类号 TG249.9 [金属学及工艺—铸造]
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大连大学学报
2013年 第6期

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