Structure and Electrophysical Properties of Double-component Film Alloys Based on Molybdenum and Iron or Nickel

Authors І.P. Buryk , T.M. Hrychanovs’ka, D.V. Poduremne, A.O. Stepanenko
Affiliations

Sumy State University, Rymskyi-Korsakov Str., 2, 40007 Sumy, Ukraine

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Issue Volume 10, Year 2018, Number 5
Dates Received 18 August 2018; revised manuscript received 22 October 2018; published online 29 October 2018
Citation І.P. Buryk, T.M. Hrychanovs’ka, D.V. Poduremne, A.O. Stepanenko, J. Nano- Electron. Phys. 10 No 5, 05026 (2018)
DOI https://doi.org/10.21272/jnep.10(5).05026
PACS Number(s) 73.63. – b, 73.63. – Bd, 68.60. – p
Keywords Double-component film alloys, Structure-phase state, Theroresistive effect, Strain effect.
Annotation

The study of the structure-phase composition and electrophysical properties of film alloys of molybdenum and nickel or iron were deposited by the method of simultaneous thermo-vacuum condensation was done. In a non-annealing state, the samples remain biphasic. After heat treatment at 750 K in vacuum, the formation of the metastable phases of the fcc-Ni3Mo (lattice parameter a = 0.360 nm) and bcc-Fe2Mo (= 0.296 nm) in film alloys based on Ni and Mo was recorded at concentrations of atoms of ferromagnetic metal 75 and 65 at.% respectively Investigation of the thermoresistive properties of films showed that the dispersion of the structure, the admixture phases and the solid phase reactions affect the temperature dependence of the resistivity and the temperature coefficient of resistance. In film alloys, the range of elastic deformation remains greater than several times than for single-layer metal films, while the strain coefficient is practically unchanged.

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