Productive Methods for Increasing the Efficiency of Intermediate Reactions in the Synthesis of Functional Ceramics
( Pp. 224-234)

More about authors
Rakhimov Rustam Kh. Dr. Sci. (Eng.); Head, Laboratory No. 1; Institute of Materials Science of the Academy of Sciences of the Republic of Uzbekistan; Institute of Renewable Energy Sources; Tashkent, Republic of Uzbekistan
Институт материаловедения Академии наук Республики Узбекистан
г. Ташкент, Республика Узбекистан Pankov Vladimir V. Dr. Sci. (Chem.), Professor; Belarusian State University; Minsk, Republic of Belarus Yermakov Vladimir P. senior research, Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan Makhnach Leonid V. Cand. Sci. (Chem.); senior researcher; Belarusian State University; Minsk, Republic of Belarus
Abstract:
This study focuses on investigating the potential of modified ceramic technology methods for producing composition materials with nano-level heterogeneity, approximating the properties of functional ceramics (FC) obtained through helio-technology. Three different powder synthesis methods were utilized: oxide method, ceramic technology, and sol-gel technology. X-ray diffraction and electron microscopy analyses were employed to compare the microstructure of powders obtained by these methods with samples synthesized using helio-technology. The results revealed that powders obtained through modified ceramic technology methods exhibited a more homogeneous structure and smaller particle size compared to those obtained through helio-technology. Nano-sized, metastable, and amorphous phases formed at the boundaries of such powders are considered responsible for the generation of pulsed infrared radiation. These findings have significant practical implications in various fields that require composition materials with controlled properties and the ability to generate pulsed infrared radiation.
How to Cite:
Rakhimov R.Kh., Pankov V.V., Yermakov V.P., Makhnach L.V. Productive Methods for Increasing the Efficiency of Intermediate Reactions in the Synthesis of Functional Ceramics. Computational Nanotechnology. 2024. Vol. 11. No. 1. Pp. 224–234. (In Rus.) DOI: 10.33693/2313-223X-2024-11-1-224-234. EDN: FCGMYR
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Keywords:
Pulsed infrared radiation, functional ceramics, carbonate method, oxide technology, heliotechnology, gel-sol technology, mechanochemistry, pulsed tunnel effect.


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