Abstract
The tribological behavior of AlCr0.5NbTaxTi4–x (x = 0, 0.5, and 1) refractory high-entropy alloys was systematically investigated from room temperature to 800 °C. The relationship between the alloy composition, microstructure, mechanical properties, and tribological performance was analyzed. The results show that all three alloys have a body-centered cubic (bcc) single-phase structure. The Ta addition enhances solid solution strengthening and increases the melting point that would resist high-temperature thermal softening. As a result, high-temperature strength is enhanced considerably, the coefficients of friction (COF) and wear rates of the alloys are reduced considerably at elevated temperatures, demonstrating excellent friction-reducing and anti-wear properties, e.g., the COF and wear rate of AlCr0.5NbTaTi3 alloy at 800 °C are 0.34 and 4.40 × 10–7 mm3 N–1 m–1, respectively. The excellent wear resistance at high temperatures can be attributed to the formation of an oxide-tribo layer (Ta2O5 and TiO2) with ultrafine-grained layers and good high-temperature mechanical properties.
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