Relationship between magnetic properties and microstructure of ferrites during sintering in radiation and radiation-thermal conditions

Malyshev A.V. Lysenko E.N. Sheveleva E.A. Surzhikova O.A. Aringazin A.K.
2021 E.A. Buketov Karaganda University Publish house

Eurasian Physical Technical Journal
2021 #18 Issue 1 3 - 8 pp.

The studies of correlation between magnetic properties and microstructure were conducted on samples of lithium-substituted ferrite, sintered in radiation and radiation-thermal conditions. Radiation-thermal sintering was performed for compacts irradiated with a pulsed electron beam with energy of (1.5–2.0) MeV, beam current per pulse of (0.5-0.9) A, irradiation pulse duration of 500 μs, pulse repetition rate of (5–50) Hz, and compact heating rate of 1000 °C/min. Sintering in thermal furnaces (T-sintering) was carried out in a preheated chamber electric furnace. The paper shows that magnetic induction does not depend on the ferrite grain size. In this case, the coercive force is inversely proportional to the grain size and depends on the intragranular porosity of ferrite samples. In contrast to thermal sintering, radiation-thermal sintering does not cause capturing of intergranular voids by growing grains and enhances coagulation of intragranular pores.

Ferrites , High temperatures , Intense electron beams , Magnetic properties , Microstructure , Sintering

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Tomsk Polytechnic University, Tomsk, Russian Federation
Ceské vysoké ucení technické v Prague, Prague, Czech Republic
L.N. Gumilev Eurasian National University, Nur-Sultan, Kazakhstan

Tomsk Polytechnic University
Ceské vysoké ucení technické v Prague
L.N. Gumilev Eurasian National University

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