Enhanced High-Temperature Strength of HfNbTaTiZrV Refractory High-Entropy Alloys by AI 2O 3 Reinforcement

Bin‐Cheng Wang, Qianqian Wang, N. Lu, Bo Sun, Xiubing Liang, B. Shen
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Abstract

The HfNbTaTiZrV refractory high-entropy alloy reinforced with 4vol.% Al2O3 displays excellent phase stability and mechanical properties at elevated temperatures. A superior compressive yield strength of 2700 MPa at room temperature, 1392 MPa at 800 °C, and 693 MPa at 1000 °C has been obtained. The improved yield strength results from multiple strengthening mechanisms caused by Al2O3 addition, including interstitial strengthening, grain boundary strengthening, and dispersion strengthening. Besides, the effects of interstitial strengthening increase with the temperature and is the main strengthening mechanism at 800 °C. These findings not only promote the development of oxide-reinforced RHEAs for challenging engineering applications but also provide guidelines for the design of refractory materials with multiple strengthening mechanisms.
ai2o增强HfNbTaTiZrV难熔高熵合金的高温强度
4vol增强HfNbTaTiZrV耐火高熵合金。% Al2O3在高温下表现出优异的相稳定性和力学性能。在室温下获得了2700 MPa、800℃下获得了1392 MPa、1000℃下获得了693 MPa的优异抗压屈服强度。屈服强度的提高是由Al2O3的加入引起的多种强化机制引起的,包括间隙强化、晶界强化和弥散强化。间隙强化的作用随温度的升高而增强,在800℃时是主要的强化机制。这些发现不仅促进了具有挑战性工程应用的氧化增强RHEAs的发展,而且为具有多种强化机制的耐火材料的设计提供了指导。
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