Structure and mechanical properties of NiAl and Ni₃Al-based alloys

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• 作者：Czeppe ; Tomasz ; Wierzbinski ; Stanislaw
• 关键词：Nickel aluminides based on NiAl and Ni₃Al ; Mechanical properties at elevated temperature ; Microstructural evolution
• 刊名：International Journal of Mechanical Sciences
• 出版年：2000
• 出版时间：August, 2000
• 年：2000
• 卷：42
• 期：8
• 页码：1499-1518
• 全文大小：2.58 M

文摘

The investigation of Ni–Al–Fe–Ti–B alloys was carried out to determine the influence of iron and small titanium and boron additions on the phase composition, microstructure and mechanical characteristic, particularly with respect to high-temperature deformation conditions. These alloys, containing Al 35.8 at % and Fe 3.6–8.6–17.6 at % were prepared from high-purity components and Al master alloy containing Ti₂B particles. The influence of alloying additions of chromium and iron on the mechanical properties of directionally solidified Ni–Al–Cr–Fe alloy was investigated. Additions of both Cr 8 at % and Fe 2 at % result in higher strength than exhibited by unalloyed Ni₃Al. However, the ductility is reduced by the formation of the β′ phase. The typical, lamellar structure of Ni–20Al–8Cr–2Fe alloy undergoes coagulation during a high-temperature deformation process. The sequence of structural changes of NiAl and Ni₃Al-based alloys has been correlated with mechanical characteristics of high-temperature deformation process, determined in uni-axial compression tests. Two ranges of work hardening have been identified on the stress–strain curves of these alloys. It has been found that the first range of the deformation of Ni–Al–Fe–Ti–B alloys corresponds to the intergranular slip system operating within individual grains, while the second one is connected with transgranular slip. In the directionally solidified Ni–20Al–8Cr–2Fe alloy similar work hardening curves were observed in relation to the microstructural evolution from the lamellae shape, through elliptical shape into circular shape.