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The influence of basic chemical composition on the properties nickel-zinc ferrites, received by radiothermic sintering

Abstract

The influence of basic chemical composition on the properties nickel-zinc ferrites, received by radiothermic sintering

V.G. Andreev, V.G. Kostishyn, D.N. Chitanov, A.N. Nikolaev, A.S. Komkev, A.Yu. Adamtsov

Incoming article date: 25.09.2013

To date, the main method of mass production of advanced functional materials for various purposes is the ceramic technology. In the manufacture of multi-component oxide compounds using of ceramic technology is difficult to achieve high uniformity of chemical composition. For activation of the raw ingredients and make it more uniform use of chemical-tions (co-precipitation of salts or hydroxides, spray drying, Cryochemistry) and physical-tions (mechano-chemical, microwave, ultrasonic) methods. The paper presents the results of work on obtaining Ni-Zn-ferrite 2000NN radiation-thermal sintering. The influence of base composition and alloying additions on the electromagnetic properties of the ferrites. Confirmed the effectiveness of the use of surface-active additives To increase the density of the raw pieces and level parameters. We propose a model that explain schaya efficiency of dopants in the radiation-thermal sintering.

Keywords: Nickel-zinc ferrite, radiation thermal sintering, base composition, alloying additives, permeability