1. High-temperature resistance and self-lubricating TiAlTaCN nanocomposite hard coating by synergistic interaction of TiAlN(C) and TaN(C) phases.
- Author
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Li, Xianliang, Li, Guojian, Lü, Wenzhang, Liu, Shiying, Deng, Jiwu, and Wang, Qiang
- Subjects
- *
PHASE transitions , *NANOCOMPOSITE materials , *ALUMINUM oxide , *SURFACE coatings , *MAGNETRON sputtering - Abstract
The self-lubricating TiAlTaCN coating with high-temperature resistance above 800 °C is developed using magnetron sputtering. This mechanism stems from the TaN phase is easily oxidized to form a protective Ta 2 O 5 that compensates for the insufficient antioxidant capacity of Al 2 O 3. Moreover, the TaC phase, being resistant to oxidation, contributes to achieving the self-lubrication effect with amorphous C-related phases. The cutting distance of the TiAlTaCN is 250% greater than that of the TiAlCN during the high-speed cutting of titanium alloy. These results reveal the oxidation mechanism of different carbon nitrides and provide a new solution for the self-lubricating coatings applied at high temperatures. • A new high-temperature resistant (800 °C) self-lubricating (COF=0.27) TiAlTaCN nanocomposite coating was prepared. • The Ta addition inhibits the phase transition and increases the high thermal stability from 600 °C to 1000 °C. • The wear rate of the TiAlTaCN is 38.7% lower than that of the TiAlCN at 600 °C. • The cutting distance of the TiAlTaCN is 250% higher than the TiAlCN during the high-speed cutting of titanium alloy. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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