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Development of Precipitation-Strengthened Al0.8NbTiVM (M = Co, Ni) Light-Weight Refractory High-Entropy Alloys

机译：沉淀加强的Al0.8NBTVM（M = CO，Ni）轻重耐火高熵合金的研制

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Single-phase solid-solution refractory high-entropy alloys (RHEAs) have been receiving significant attention due to their excellent mechanical properties and phase stability at elevated temperatures. Recently, many studies have been reported regarding the precipitation-enhanced alloy design strategy to further improve the mechanical properties of RHEAs at elevated temperatures. In this study, we attempted to develop precipitation-hardened light-weight RHEAs via addition of Ni or Co into Al0.8NbTiV HEA. The added elements were selected due to their smaller atomic radius and larger mixing enthalpy, which is known to stimulate the formation of precipitates. The addition of the Ni or Co leads to the formation of the sigma precipitates with homogeneous distribution. The formation and homogeneous distribution of sigma particles plays a critical role in improvement of yield strength. Furthermore, the Al0.8NbTiVM0.2 (M = Co, Ni) HEAs show excellent specific yield strength compared to single-phase AlNbTiV and NbTiVZr RHEA alloys and conventional Ni-based superalloy (Inconel 718) at elevated temperatures.

机译：单相固溶耐火材料高熵合金（RHEAS）由于它们在升高温度下的优异的机械性能和相位稳定性而受到显着的关注。最近，已经报道了许多研究关于降水增强的合金设计策略，以进一步改善升高的温度下RHEA的力学性能。在这项研究中，我们试图通过添加Ni或Co进入Al0.8NBTIV Hea，在Al0.8nbtiv Hea中进行沉淀硬化的轻量级Rheas。由于其较小的原子半径和较大的混合焓而选择添加的元素，已知刺激沉淀物的形成。添加Ni或Co导致σ与均匀分布的沉淀物形成。 Sigma颗粒的形成和均匀分布在提高屈服强度方面发挥着关键作用。此外，与单相alnbTIV和NβRrhea合金和常规Ni的高温合金（Inconel 718）相比，Al0.8nbtvm0.2（M = Co，Ni）及其在升高的温度下进行了优异的特定屈服强度。

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Kangjin Lee; Yunjong Jung; Junhee Han; Sung Hwan Hong; Ki Buem Kim; Peter K. Liaw; Chanho Lee; Gian Song;
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年度 2021
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Development of Precipitation-Strengthened Al0.8NbTiVM (M = Co, Ni) Light-Weight Refractory High-Entropy Alloys

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