Features of the influence of thermal modes of cooling on processes of nonequilibrium crystallization of materials from the liquid state | Zendy

V. F. Bashev | Zendy; S. I. Ryabtsev | Zendy; S. N. Antropov | Zendy; N. A. Kutseva | Zendy; O. I. Kushnerev | Zendy; E. S. Skorbyaschensky | Zendy

Open Access

Features of the influence of thermal modes of cooling on processes of nonequilibrium crystallization of materials from the liquid state

Author(s) -

V. F. Bashev,

S. I. Ryabtsev,

S. N. Antropov,

N. A. Kutseva,

O. I. Kushnerev,

E. S. Skorbyaschensky

Publication year - 2018

Publication title -

journal of physics and electronics

Language(s) - English

Resource type - Journals

eISSN - 2664-3626

pISSN - 2616-8685

DOI - 10.15421/331822

Subject(s) - supercooling , non equilibrium thermodynamics , materials science , amorphous solid , quenching (fluorescence) , crystallization , substrate (aquarium) , casting , thermal , composite material , thermodynamics , optics , chemistry , crystallography , physics , oceanography , fluorescence , geology

The quantitative estimation of maximum level of cooling rates in the process of casting microwires in glass insulation is given. The shown possibility of nonequilibrium formation of microwire substance is due to the influence of an amorphous substrate in the form of glass insulation. The amorphous state in the case of thin microwires with cast iron vein Fe‒20 at.% C confirms the implementation of an increased (compared to splat-quenching) level of nonequilibrium formation of microwires in combination with updated rates of cooling and increased degree of supercooling of liquid microwire vein.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research