热处理对化学镀Ni-YSZ陶瓷镀层显微硬度的影响

Q3 Engineering

Journal of Achievements in Materials and Manufacturing Engineering Pub Date : 2022-07-01 DOI:10.5604/01.3001.0016.0940

N. Bahiyah Baba, A. S. Ghazali, A. A. Abdul Rahman, S. Sharif

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引用次数: 0

摘要

本文讨论了热处理对化学镀镍钇稳定氧化锆(Ni-YSZ)陶瓷涂层的影响。Ni-YSZ金属陶瓷涂层在切削工具、热障、固体氧化物燃料阳极等方面具有潜在的应用前景。通过不同的加热温度、时间和陶瓷粒度，陶瓷YSZ与金属镍在硬度等力学性能方面的相容性得到了突出的体现。采用化学共沉积镍的方法在高速钢基体上沉积Ni-YSZ金属陶瓷涂层。温度和时间分别在300-400℃和1-2小时范围内变化。显微硬度测量使用维氏显微硬度计(岛津)根据ISO 6507-4进行。利用JOEL扫描电镜(SEM)和能量色散x射线(EDX) JSM 7800F对金属陶瓷涂层进行了表面表征。采用Bruker D8 Advance型x射线衍射仪(XRD)分析了材料的晶体结构。结果表明:Ni-YSZ金属陶瓷涂层的显微硬度与加热温度和时间成正比，分别为70:30。从室温(rtp)在300°C下加热Ni-YSZ金属陶瓷涂层1小时，显微硬度增加12%，而从1到2小时，显微硬度增加19%。与350°C和400°C加热相比，rtp加热1小时的增幅分别为33%和49%，1至2小时的增幅为8%和16%。此外，不同的YSZ颗粒尺寸对Ni-YSZ陶瓷的影响对加热温度和加热时间有不同的响应。本文仅讨论了热处理对Ni-YSZ金属陶瓷镀层硬度性能的影响。摩擦学效应将在今后的工作中得到重视。显微硬度数据可能因所施加的维氏显微硬度、陶瓷颗粒掺入量和镍基体中磷含量而变化。这项工作的价值在于陶瓷YSZ和金属镍基体在热处理后的力学性能(如硬度)方面的相容性。

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Effect of heat treatment on microhardness of electroless Ni-YSZ cermet coating

The paper discussed the effect of heat treatment on electroless nickel-yttria-stabilised zirconia (Ni-YSZ) cermet coating. Ni-YSZ cermet coating has potential applications such as cutting tools, thermal barriers, solid oxide fuel anode, and various others. The compatibility of ceramic YSZ and metallic nickel in terms of the mechanical properties such as hardness by varying the heating temperature, time and ceramic particle size is highlighted. Ni-YSZ cermet coating was deposited onto a high-speed steel substrate using the electroless nickel co-deposition method. The temperature and time were varied in a range of 300-400°C and 1-2 hours, respectively. The microhardness measurements were carried out using a Vickers microhardness tester (Shimadzu) according to ISO 6507-4. The surface characterisation of the cermet coating was carried out using JOEL Scanning Electron Microscope (SEM) coupled with Energy Dispersive X-ray (EDX) JSM 7800F. The crystallographic structure of materials was analysed by X-ray diffraction (XRD) Bruker D8 Advance instrument. It was found that the microhardness of Ni-YSZ cermet coating with the ratio of 70:30, respectively, is directly proportional to the heating temperature and time. Heating the Ni-YSZ cermet coating at 300°C from room temperature (rtp) to 1 hour shows a 12% microhardness increment, while from 1 to 2 hours gives a 19% increment. Compared to heating at 350°C and 400°C, the increment is more significant at 33% and 49% for rtp to 1 hour and 8% and 16% for 1 to 2 hours, respectively. In addition, the effect of varying YSZ particle size in the Ni-YSZ cermet gave response differently for heating temperature and heating time. The paper is only limited to the discussion of the heat treatment effect on Ni-YSZ cermet coating hardness property. The tribological effect will be in future work. The microhardness data may vary due to the Vickers microhardness force applied and the amount of ceramic particle incorporation and phosphorus content in the nickel matrix. The value of this work is the compatibility of the ceramic YSZ and metallic nickel matrix in terms of mechanical properties, such as hardness, upon heat treatment.

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来源期刊

Journal of Achievements in Materials and Manufacturing Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

2.10

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0.00%

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期刊介绍： The Journal of Achievements in Materials and Manufacturing Engineering has been published by the Association for Computational Materials Science and Surface Engineering in collaboration with the World Academy of Materials and Manufacturing Engineering WAMME and the Section Metallic Materials of the Committee of Materials Science of the Polish Academy of Sciences as a monthly. It has 12 points which was received during the evaluation by the Ministry of Science and Higher Education journals and ICV 2017:100 on the ICI Journals Master list announced by the Index Copernicus. It is a continuation of "Proceedings on Achievements in Mechanical and Materials Engineering" published in 1992-2005. Scope: Materials[...] Properties[...] Methodology of Research[...] Analysis and Modelling[...] Manufacturing and Processingv Biomedical and Dental Engineering and Materials[...] Cleaner Production[...] Industrial Mangement and Organisation [...] Education and Research Trends[...]