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Ni-CeO2复合镀层厚度对δ-Ni2Al3-CeO2/Ni-CeO2涂层体系扩散行为的影响
引用本文:谭晓晓,孙丹,范其香. Ni-CeO2复合镀层厚度对δ-Ni2Al3-CeO2/Ni-CeO2涂层体系扩散行为的影响[J]. 腐蚀科学与防护技术, 2019, 31(3): 285-290. DOI: 10.11903/1002.6495.2018.132
作者姓名:谭晓晓  孙丹  范其香
作者单位:上海工程技术大学工程实训中心 上海201620;上海工程技术大学材料工程学院 上海201620;上海工程技术大学材料工程学院 上海201620;天津职业技术师范大学高速切削与精密加工重点实验室 天津300222
摘    要:在Ni基体电沉积不同厚度的Ni-CeO2复合镀层并对其进行620 °C低温渗铝,制备了剩余复合镀层厚度分别约为10和45 μm厚的δ-Ni2Al3-CeO2/Ni-CeO2涂层体系。1000 °C真空退火5 h后,以上两种涂层体系均可在铝化物/镀层界面形成CeO2富集层。但剩余复合镀层厚度为10 μm的涂层体系由于氧化物富集程度不足,涂层退化程度较剩余复合镀层厚度为45 μm的涂层体系严重。可见,在镀层氧化物颗粒含量一定的情况下,渗铝后剩余镀层厚度是影响扩散障有效性的重要因素。

关 键 词:铝化物涂层  扩散障  复合电镀  退火  互扩散
收稿时间:2018-06-19

Influence of Thickness of Electrodeposited Ni-CeO2 Film on Interdiffusion of δ-Ni2Al3-CeO2/Ni-CeO2 Coating System and Substrate at High Temperature
Xiaoxiao TAN,Dan SUN,Qixiang FAN. Influence of Thickness of Electrodeposited Ni-CeO2 Film on Interdiffusion of δ-Ni2Al3-CeO2/Ni-CeO2 Coating System and Substrate at High Temperature[J]. Corrosion Science and Protection Technology, 2019, 31(3): 285-290. DOI: 10.11903/1002.6495.2018.132
Authors:Xiaoxiao TAN  Dan SUN  Qixiang FAN
Abstract:Ni-CeO2 composite films with different thicknesses were electrodeposited on Ni substrate and then aluminized at 620 ℃. Accordingly, two coating (δ-Ni2Al3-CeO2/Ni-CeO2) systems consisted of an outer portion of δ-Ni2Al3-CeO2 and an inner portion of remaining Ni-CeO2 films of ca 10 and 45 μm respectively in thickness were prepared. After vacuum annealing at 1000 ℃ for 5 h, the above two coating systems all formed a CeO2-rich layer in between the outer aluminide coating and the inner Ni-CeO2 film. However, the degradation of the coating system with the inner Ni-CeO2 film of 10 μm was more serious than that of 45 μm due to the insufficient oxides enrichment at the interface of aluminide/Ni-CeO2. It can be seen that the thickness of the remaining inner Ni-CeO2 film after aluminizing is an important factor responsible to the effectiveness of diffusion barrier for the prepared Ni-CeO2 film containing a designed amount of CeO2 particles.
Keywords:aluminide coating  diffusion barrier  electroplating  annealing  interdiffusion  
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