16 research outputs found
The Clusters Self-Assembled Crystal and Magnetic Structure During the Martensite Transition in Fe86mn13c Alloy
In bulk and thin film state Fe86Mn13C alloy observed experimentally self-assembly of the crystal
and magnetic structures on multiscale levels. Offered self-assembly cluster model of atomic
structure based on the concept of a liquid-like state of the material in localized areas, formed in
the waves of plastic deformation
The Clusters Self-Assembled Crystal and Magnetic Structure During the Martensite Transition in Fe86mn13c Alloy
In bulk and thin film state Fe86Mn13C alloy observed experimentally self-assembly of the crystal
and magnetic structures on multiscale levels. Offered self-assembly cluster model of atomic
structure based on the concept of a liquid-like state of the material in localized areas, formed in
the waves of plastic deformation
Structure and magnetic properties of titanium nickelide nanoparticles synthesized by pulsed laser ablation method
We have successfully synthesized magnetic titanium nickelide nanoparticles with
equiatomic composition by pulsed laser ablation method. Using transmission electron microscopy
and microanalysis was revealed that particles represent the homogeneous conglomerates containing
identical amount of Ni and Ti atoms. The magnetization value of nanoparticles was estimated
Structure and magnetic properties of titanium nickelide nanoparticles synthesized by pulsed laser ablation method
We have successfully synthesized magnetic titanium nickelide nanoparticles with
equiatomic composition by pulsed laser ablation method. Using transmission electron microscopy
and microanalysis was revealed that particles represent the homogeneous conglomerates containing
identical amount of Ni and Ti atoms. The magnetization value of nanoparticles was estimated