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Publication
Microstructure evolution and mechanical behavior of magnetron sputtering AlN–Al nanostructured composite film
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Advisor(s)
Abstract(s)
In this paper, a series of AlN–Al nanocomposite films are prepared by reactive magnetron sputtering. The effects of N2 flow rate on the microstructure and mechanical properties of the films are studied. The formation and evolution mechanism of the nanocomposite structure are revealed. The results show that with the decrease of N2 flow rate, the microstructure goes through three stages: pure AlN, amorphous Al surrounded nanocrystalline AlN and AlN nanoparticle reinforced Al matrix composite. Benefiting from the good wettability of Al on AlN ceramics, the film deposited at 6 sccm N2 flow rate forms a nanocomposite structure of about 8 nm AlN grains wrapped by 1–2 nm amorphous Al. The hardness of the films increases first and then decreases with the decrease of N2 flow rate, ranging from 4 GPa to 25 GPa. The toughness of the films is analyzed by the ratio of H/E, H3/E2, the normalized plastic depth (δH) and the morphology of large load indentation. The results show that the toughness of the nanocomposite film obtained at 6 sccm N2 flow rate is significantly improved while maintaining the hardness equivalent to that of pure AlN film. The improvement in toughness comes from the microcracks initiated in AlN hindered by the surrounding Al phase.
Description
Keywords
Reactive magnetron sputtering AIN-AI film Nanocomposite structure Mechanical properties Toughning
Citation
Bingyang Ma, Boyuan Sun, Hailong Shang, Rongbin Li, Haoxin Cao, Filipe Fernandes, Microstructure evolution and mechanical behavior of magnetron sputtering AlN–Al nanostructured composite film, Ceramics International, Volume 50, Issue 4, 2024, Pages 6017-6024, ISSN 0272-8842, https://doi.org/10.1016/j.ceramint.2023.11.276.
Publisher
Elsevier