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The Effect of Plastification of Cu–14Al–4Ni Alloy with the Shape Memory Effect in High-Temperature Isothermal Precipitation

It was found that deformation by the uniaxial compression scheme (while measuring mechanical properties under isothermal conditions) at 600–800°C leads to a significant refinement of the grain structure, which increases the strength and ductility of Cu–13.95 wt % Al–3.98 wt % Ni alloy, experiencing...

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Published in:Technical physics letters 2020-02, Vol.46 (2), p.118-121
Main Authors: Svirid, A. E., Pushin, V. G., Kuranova, N. N., Belosludtseva, E. S., Pushin, A. V., Lukyanov, A. V.
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description It was found that deformation by the uniaxial compression scheme (while measuring mechanical properties under isothermal conditions) at 600–800°C leads to a significant refinement of the grain structure, which increases the strength and ductility of Cu–13.95 wt % Al–3.98 wt % Ni alloy, experiencing thermoelastic martensitic transformation and related shape memory effects. The structural and phase composition features were studied using scanning and transmission electron microscopy and X-ray diffraction.
doi_str_mv 10.1134/S1063785020020145
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subjects Aluminum
Classical and Continuum Physics
Compression tests
Copper
Deformation effects
Grain structure
High temperature
Martensitic transformations
Mechanical properties
Nickel
Phase composition
Physics
Physics and Astronomy
Shape effects
Shape memory alloys
title The Effect of Plastification of Cu–14Al–4Ni Alloy with the Shape Memory Effect in High-Temperature Isothermal Precipitation
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