4.6 Article

Structural and Phase Transformations and Physical and Mechanical Properties of Cu-Al-Ni Shape Memory Alloys Subjected to Severe Plastic Deformation and Annealing

期刊

MATERIALS
卷 14, 期 16, 页码 -

出版社

MDPI
DOI: 10.3390/ma14164394

关键词

copper shape memory alloys (SMAs); severe plastic deformation (SPD); high pressure torsion (HPT); heat treatment (HT); thermoelastic martensitic transformation (TMT); shape memory effect (SME); mechanical properties; ductility

资金

  1. Mikheev Institute of Metal Physics of the Ural Branch of the Russian Academy of Sciences [AAAAA18-118020190116-6]

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By using electron microscopy and X-ray analysis techniques, combined with measurements of electrical resistance and magnetic susceptibility, the authors have obtained data on the unique characteristics of pre-martensitic states and martensitic transformations, as well as subsequent decomposition in Cu-14wt%Al-3wt%Ni and Cu-13.5wt%Al-3.5wt%Ni shape memory effect alloys. The microstructure, phase composition, mechanical properties, and microhardness of nanocrystalline alloys produced by severe plastic deformation and subsequent annealing have been determined for the first time. A crystallographic model of martensite nucleation and rearrangements beta(1)->beta(1)' and beta(1)->gamma(1)' has been proposed based on analysis of observed tweed contrast and diffuse scattering in the austenite, as well as internal defects in the martensite substructure.
Using the methods of electron microscopy and X-ray analysis in combination with measurements of the electrical resistance and magnetic susceptibility, the authors have obtained data on the peculiar features of pre-martensitic states and martensitic transformations, as well as subsequent decomposition, in the alloys with shape memory effect of Cu-14wt%Al-3wt%Ni and Cu-13.5wt%Al-3.5wt%Ni. For the first time, we established the microstructure, phase composition, mechanical properties, and microhardness of the alloys obtained in the nanocrystalline state as a result of severe plastic deformation under high pressure torsion and subsequent annealing. A crystallographic model of the martensite nucleation and the rearrangements beta(1)->beta(1)' and beta(1)->gamma(1)' are proposed based on the analysis of the observed tweed contrast and diffuse scattering in the austenite and the internal defects in the substructure of the martensite.

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