Magnetic materials synthesized in the solar furnace
( Pp. 30-34)
More about authors
Payzullakhanov Mukhammad-Sultan
doktor nauk (DSc); zaveduyuschiy laboratoriey
Institute of Materials Science of the Scientific-Production Association “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Institute of Materials Science of the Scientific-Production Association “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Abstract:
The process of synthesis of materials in a solar furnace was studied using the example of ferrous barium oxide. It is shown that when BaCO3+ Fe2O3 is exposed to concentrated solar radiation of high (300 W/cm2) density, hexagonal ferrous barium oxide 4(Fe2O3)4(FeO)BaFeO3 - х , cubic Ba3Fe2O6 - х = 2(BaО)FeOBаFeO3 - х, tetragonal BaOFeOBaFeO3 - х modifications
How to Cite:
Payzullakhanov M.., (2020), MAGNETIC MATERIALS SYNTHESIZED IN THE SOLAR FURNACE. Computational Nanotechnology, 1: 30-34. DOI: 10.33693/2313-223X-2020-7-1-30-34
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Obtaining and properties of BaFe12O19 and BaFe12 - xMexO19 hexagonal ferrites for permanent magnets and substrates of microwave electronics devices. Dis. Moscow, 2016. 210 p.
Pyatakov A.P., Zvezdin A.K. Magnetoelectric materials and multiferroics. UFN. 2012. Vol. 186. No. 2. Pp. 593-620.
Amirov A.A., Batdalov A.B., Kallaev S.N. et al. Features of thermal, magnetic and dielectric properties of multiferroics BiFeO3 and Bi0. 95La0.05FeO3. FTT. 2009. Vol. 51. No. 6. Pp. 1123-1126.
Wang J., Neaton J.B., Zheng H. et al. Epitaxial BiFeO3 multiferroic thin film heterostructures. Science. 2003. Vol. 299. P. 1719-1722.
Abdurakhmanov A.A., Faiziev S.A., Akbarov R.Y. et al. Properties of pyroxene glass ceramics, heat treated in the Big Solar Furnace. Applied Solar Energy. No. 45 (1). Pp. 45-47.
Paizullakhanov M.S., Faiziev S.A., Nurmatov S.R. ZZ synthesis features of barium titan ate in the field of concentrated light energy. Applied Solar Energy. No. 49 (4). Pp. 248-250.
Abdurakhmanov A.A., Paizullakhanov M.S., Akhadov Z. Synthesis of calcium aluminates on the big solar furnace. Applied Solar Energy. No. 48 (2). Pp. 129-131.
Akbarov R.Y., Paizullakhanov M.S. Characteristic features of the energy modes of a Large Solar Furnace with a capacity of 1000 kW. Applied Solar Energy. No. 54 (2). Pp. 99-109.
Keywords:
magnetic materials, coercive force, solar furnace, structure, magnetization.
