串联双极电脉冲放电沉积微晶涂层及其高温氧化性能

Qiang Xu, Yedong He, Deren Wang, H. Qi, Zhengwei Li, Wei Gao
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引用次数: 2

摘要

提出了一种新的表面涂覆工艺——串联电脉冲放电(SEPD)。该工艺采用脉冲电源的正负极作为沉积电极,衬底合金作为感应电极。通过测量pin-plate-pin系统中放电电压与间隙的关系,测试了这种SEPD的物理过程。采用振动SEPD装置在Ni20Cr合金表面制备了微晶Ni20Cr合金涂层和氧化分散Ni20Cr合金涂层。在950℃环境空气中氧化表明,微晶Ni20Cr合金涂层大大提高了基体合金的抗氧化性能。在微晶涂层中加入分散的Y2O3纳米颗粒,可以进一步降低氧化速率,提高抗氧化物剥落能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microcrystalline coatings deposited by series double-pole electro-pulse discharge and its high-temperature oxidation behavior
A new technique—series electro-pulse discharge (SEPD)—was developed as a surface coating process. In this process, both positive and negative poles of a pulse power were used as the depositing electrodes and the substrate alloy was used as an induction electrode. The physical process for such SEPD was tested by measuring the relationship between the discharge voltages and gaps in a pin-plate-pin system. Microcrystalline Ni20Cr alloy coatings and oxidedispersed Ni20Cr alloy coatings were prepared on Ni20Cr alloy surface by using a vibrating SEPD device. Oxidation at 950°C in ambient air showed that the microcrystalline Ni20Cr alloy coatings greatly improved the oxidation resistance of the substrate alloy. The addition of dispersed Y2O3 nano-particles into the microcrystalline coatings was found to further reduce the oxidation rate and enhance the oxide spallation resistance.
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