Effect of temperature on inhomogeneous elastic deformation and negative stiffness of NiAl and FeAl alloy nanofilms

The uniaxial tension of NiAl and FeAl intermetallic alloy nanofilms at different temperatures has been investigated by the molecular dynamics method. It was previously shown that nanofilms at 0 K are elastically deformed by almost 40% and that, under strain-controlled tension, there is a region in t...

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Bibliographic Details
Published in:Physics of the solid state 2014-06, Vol.56 (6), p.1157-1162
Main Authors: Bukreeva, K. A., Babicheva, R. I., Sultanguzhina, A. B., Dmitriev, S. V., Zhou, K., Mulyukov, R. R.
Format: Article
Language:English
Subjects:
Alloys
Intermetallic compounds
Mechanical Properties
Physics
Physics and Astronomy
Physics of Strength
Plasticity
Solid State Physics
Specialty metals industry
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Summary:The uniaxial tension of NiAl and FeAl intermetallic alloy nanofilms at different temperatures has been investigated by the molecular dynamics method. It was previously shown that nanofilms at 0 K are elastically deformed by almost 40% and that, under strain-controlled tension, there is a region in the stress—strain curves, where an increase in the strain is accompanied by a decrease in the tensile stress, i.e., the stiffness of nanofilms is negative. Deformation of the films in the thermal instability region is associated with the appearance of domains with different elastic strains. The influence of the temperature on these effects is investigated. Particularly, it is shown that as the temperature increases, both the elastic strain and the negative stiffness of nanofilms decrease. The inhomogeneous elastic strain and negative stiffness for FeAl films are observed in a broader temperature range (to 1000 K) than for NiAl films (to 300 K), which constitutes 0.16 and 0.65 of the melting point of these materials, respectively.
ISSN:1063-7834
1090-6460
DOI:10.1134/S1063783414060109