Fine structure and mechanical properties of the shape-memory Ni$_{50}$Ti$_{32}$Hf$_{18}$ alloy rapidly quenched by spinning
N. N. Kuranova, A. V. Pushin, A. N. Uksusnikov, E. S. Belosludtseva, N. I. Kourov, T. È. Kuntsevich, V. G. Pushin

This publication is cited in the following articles:

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2. Vyacheslav V. Marchenkov, Sabina M. Emelyanova, Elena B. Marchenkova, “Martensitic Transformation Temperatures and Hall Effect in Ni47-xMn41+xIn12 (x = 0, 1, 2) Alloys”, Materials, 16:2 (2023), 672  
3. V. G. Pushin, A. V. Pushin, N. N. Kuranova, “Specific Features of the Atomic Structure of Ti50Ni25Cu25 Alloy Rapidly Quenched from Melt”, Crystallogr. Rep., 65:1 (2020), 12  
4. Vladimir Pushin, Nataliya Kuranova, Elena Marchenkova, Artemy Pushin, “Design and Development of Ti–Ni, Ni–Mn–Ga and Cu–Al–Ni-based Alloys with High and Low Temperature Shape Memory Effects”, Materials, 12:16 (2019), 2616  
5. N. N. Kuranova, A. V. Pushin, V. G. Pushin, N. I. Z. Kourov, “Structure and Thermoelastic Martensitic Transformations in Ternary Ni–Ti–Zr Alloys with High-Temperature Shape Memory Effects”, Phys. Metals Metallogr., 119:6 (2018), 582  
6. A. V. Pushin, V. G. Pushin, T. È. Kuntsevich, N. N. Kuranova, V. V. Makarov, A. N. Uksusnikov, N. I. Kourov, “Features of crystallization of rapidly quenched Ni$_{45}$Ti$_{32}$Hf$_{18}$Cu$_{5}$ and Ni$_{25}$Ti$_{32}$Hf$_{18}$Cu$_{25}$ alloys from melt with high-temperature shape memory effect”, Tech. Phys., 62:12 (2017), 1843–1847