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HomeNanotechonologyNanomaterialsResearchers reveal nano-hardness and microstructure evolution of nitride coating 

Researchers reveal nano-hardness and microstructure evolution of nitride coating 

Figure 1. The nanohardness values of TiAlN coatings before and after irradiation. Credit: TAI Pengfei

Researchers from the Institute of Modern Physics (IMP) of the Chinese Academy of Sciences have obtained new results on the nano-hardness and microstructure evolution of nano-structured titanium-aluminum-nitride (TiAlN) coating under irradiation. Results were published in Surface & Coatings Technology.

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Transition metal nitrides coating materials, especially titanium nitride (TiN) coatings, exhibit high hardness, chemistry inertness, excellent wear and corrosion resistance. These properties enable them to serve as superior protective coatings on nuclear reactor structure materials. However, the extreme radiation environment in nuclear reactors may change their properties and degrade their performance. Thus, it is essential to conduct research on the radiation response of the coating materials.

Researchers at IMP have studied the radiation-induced changes in the properties of TiN-based coating materials. They selected TiAlN as an isostructure model material to investigate the irradiation induced nano-hardness and microstructure evolution, and the relationship between them.

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In the experiment, the coatings were deposited on WFeNi substrate via the cathodic arc ion plating method, and the average grain sizes of as-deposited coatings were about 10 nm. The nitride (N) ion irradiation experiments of the obtained TiAlN coatings were performed at the 320 kV multi-discipline research platform with various temperatures and fluences.

Researchers reveal nanohardness and microstructure evolution of nitride coating under irradiation
Figure 2. High resolution transmission electron microscopy images of as-deposited coating (a), RT-2E16 (b) RT-4E16 (c), 300 oC-4E16 (d), 500 oC-4E16 (e) coating samples. Credit: TAI Pengfei

According to the researchers, there is no amorphization or phase transformation observed in each of the irradiated samples, even under the damage level of 10 dpa at room temperature and higher temperatures, indicating that the prepared TiAlN coating has a good irradiation resistance.

Moreover, they observed significant radiation-induced softening (RIS) effects in all the irradiated samples. The RIS effects were amplified in samples irradiated at room temperature compared with the samples irradiated at the high temperature. The researchers observed a large number of N bubbles in all irradiated samples, and found that the N bubbles located along grain boundaries should be responsible for RIS effects in nano-structured TiAlN coating.

Further information: Pengfei Tai et al, Microstructure evolution and nanohardness of nanostructured TiAlN coating under N+ ion irradiation, Surface and Coatings Technology (2022). DOI: 10.1016/j.surfcoat.2022.128494

Source: Chinese Academy of Sciences

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