Productive Methods for Increasing the Efficiency of Intermediate Reactions in the Synthesis of Functional Ceramics
( Pp. 224-234)
More about authors
Rakhimov Rustam Kh.
Doctor of Engineering; Head at the Laboratory No. 1; Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan; Institute of Renewable Energy Sources
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Science of Uzbekistan
Tashkent, Republic of Uzbekistan Pankov Vladimir V. Dr. Sci. (Chem.), Professor
Belarusian State University
Minsk, Republic of Belarus Yermakov Vladimir P. senior research at the 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
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Science of Uzbekistan
Tashkent, Republic of Uzbekistan Pankov Vladimir V. Dr. Sci. (Chem.), Professor
Belarusian State University
Minsk, Republic of Belarus Yermakov Vladimir P. senior research at the 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
Reference list:
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Rakhimov R.H., Gorlach R.S., Pankov V.V., Ermakov V.P. A scalable method for obtaining nanocomposites for devices generating pulsed radiation in the far infrared range. In: Applied problems of optics, computer science, radiophysics and condensed matter physics. Proceedings of the Seventh International Scientific and Practical Conference. Minsk: Research Institute of the BSU PFP, 2023. Pp. 444-10, 444-12.
Rakhimov R.H., Pankov V.V., Ermakov V.P. et al. Development of a method for obtaining ceramic nanocomposites using sol-gel technology elements to create inclusions of amorphous phases with a composition similar to the target crystalline ceramic matrix. Computational Nanotechnology. 2022. Vol. 9. No. 3. Pp. 60–67. (In Rus.) DOI: 10.33693/2313-223X-2022-9-3-60-67. EDN: KXUJXW
Letyuk L.M., Pankov V.V., Bashkirov L.A. et al. The mechanism of formation of manganese–zinc ferrites under conditions of thermovibropol. Powder Metallurgy. 1988. No. 11. Pp. 36–41. (In Rus.)
Bashkirov L.A., Letyuk L.M., Strakhova T.A. et al. The influence of thermomechanical synthesis conditions on the properties of products made of manganese-zinc ferrite powders. In: Mechanochemical synthesis: Thesis of the All–Russian Conference. Vladivostok, 1990. Pp. 103–106.
Pankov V.V., Bashkirov L.A., and others. Influence of thermomechanical processing conditions on the properties of Mn-Zn ferrite powders. In: Mechanochemistry and mechanical emission of solids. Abstracts of reports of Everywhere. Simp. Chernihiv, 1990. Vol. 2. P. 160.
Zhan Z.L., He Y.D., Wang D.R., Gao W. Low-temperature processing of Fe–Al intermetallic coatings assisted by ball milling. Intermetallics. 2006. No. 14. P. 75. (In Rus.)
Gerasimov K.B., Gusev A.A., Kolpakov V.V., Ivanov E.Yu. Siberian Chemical Journal. 1991. Issue 3. Pp. 140–145. (In Rus.)
Shelekhov E.V., Sviridova T.A. Simulation of the motion and heating of balls in a planetary mill. The effect of processing modes on the products of mechanical activation of a mixture of Ni and Nb powders. Materials Science. 1999. No. 10. Pp. 13–22. (In Rus.)
Tonejc A., Kosanovic C., Stubicar M. et al. Equivalence of ball milling and thermal treatment for phase transitions in the Al2O3 system. J. of Alloys and Compounds. 1994. Vol. 204. Pp. L1–L3.
Logvinkov S.M. Solid-phase exchange reactions in ceramics technology. Monograph. KHNEU Publishing House, 2013. 247 p.
Rakhimov R.Kh. The use of ceramic materials. Vol. 1. Lambert, Dusseldorf, 2023.P. 278.
Rakhimov R.Kh. The use of ceramic materials. Vol. 2. Lambert, Dusseldorf, 2023.P. 202.
Rakhimov R.Kh. The use of ceramic materials. Vol. 3. Lambert, Dusseldorf, 2023.P. 384.
Rakhimov R.Kh. The use of ceramic materials. Vol. 4. Lambert, Dusseldorf, 2023.P. 220.
Rakhimov R.Kh., Ermakov V.P. The KEY TO HEALTH or functional ceramics – what is it? Lambert, Dusseldorf, 2023. P. 433.
Rakhimov R.Kh. Functional ceramics and its applications. Infrared radiation – a gentle approach to the treatment of diseases. Lambert, Dusseldorf, 2023. P. 154.
Rakhimov R.Kh. Diabetes mellitus, obesity, hypertension. Lambert, Dusseldorf, 2023. P. 92.
Rakhimov R.Kh. Resonance therapy. Lambert, Dusseldorf, 2023. P. 132.
Rakhimov R.Kh. Fundamentals of the Infra-R method. Lambert, Dusseldorf, 2023. P. 133.
Rakhimov R.Kh. Synthesis of functional ceramics based on BSP and developments based on it. Computational Nanotechnology. 2015. No. 3. Pp. 11–25. (In Rus.) EDN: UJUCHV
Rakhimov R.Kh., Pankov V.V., Ermakov V.P. et al. Possibilities of a film-ceramic composite for greenhouses and greenhouses. In: Actual problems of solid state physics. Collection of reports of the X International Scientific Conference (Minsk, May 22–26, 2023). Pp. 481–484.
Rakhimov R.H., Pankov V.V., Ermakov V.P. et al. Investigation of the properties of functional ceramics synthesized by a modified carbonate method. Computational Nanotechnology. 2023. Vol. 10. No. 3. Pp. 130–143. (In Rus.) DOI: 10.33693/2313-223X-2023-10-3-130-143. EDN: SZDYRZ.
Pankov V.V., Rakhimov R.H., Ermakov V.P. Method of synthesis of ceramic material for pulsed IR radiation devices 6th International Scientific and Technical Conference. In: Minsk Scientific readings 2023 “Technological independence and competitiveness of the Union State, CIS countries, EAEU and SCO” (Minsk, December 6–8, 2023). Pp. 333–338.
Rakhimov R.H., Gorlach R.S., Pankov V.V., Ermakov V.P. A scalable method for obtaining nanocomposites for devices generating pulsed radiation in the far infrared range. In: Applied problems of optics, computer science, radiophysics and condensed matter physics. Proceedings of the Seventh International Scientific and Practical Conference. Minsk: Research Institute of the BSU PFP, 2023. Pp. 444-10, 444-12.
Rakhimov R.H., Pankov V.V., Ermakov V.P. et al. Development of a method for obtaining ceramic nanocomposites using sol-gel technology elements to create inclusions of amorphous phases with a composition similar to the target crystalline ceramic matrix. Computational Nanotechnology. 2022. Vol. 9. No. 3. Pp. 60–67. (In Rus.) DOI: 10.33693/2313-223X-2022-9-3-60-67. EDN: KXUJXW
Letyuk L.M., Pankov V.V., Bashkirov L.A. et al. The mechanism of formation of manganese–zinc ferrites under conditions of thermovibropol. Powder Metallurgy. 1988. No. 11. Pp. 36–41. (In Rus.)
Bashkirov L.A., Letyuk L.M., Strakhova T.A. et al. The influence of thermomechanical synthesis conditions on the properties of products made of manganese-zinc ferrite powders. In: Mechanochemical synthesis: Thesis of the All–Russian Conference. Vladivostok, 1990. Pp. 103–106.
Pankov V.V., Bashkirov L.A., and others. Influence of thermomechanical processing conditions on the properties of Mn-Zn ferrite powders. In: Mechanochemistry and mechanical emission of solids. Abstracts of reports of Everywhere. Simp. Chernihiv, 1990. Vol. 2. P. 160.
Zhan Z.L., He Y.D., Wang D.R., Gao W. Low-temperature processing of Fe–Al intermetallic coatings assisted by ball milling. Intermetallics. 2006. No. 14. P. 75. (In Rus.)
Gerasimov K.B., Gusev A.A., Kolpakov V.V., Ivanov E.Yu. Siberian Chemical Journal. 1991. Issue 3. Pp. 140–145. (In Rus.)
Shelekhov E.V., Sviridova T.A. Simulation of the motion and heating of balls in a planetary mill. The effect of processing modes on the products of mechanical activation of a mixture of Ni and Nb powders. Materials Science. 1999. No. 10. Pp. 13–22. (In Rus.)
Tonejc A., Kosanovic C., Stubicar M. et al. Equivalence of ball milling and thermal treatment for phase transitions in the Al2O3 system. J. of Alloys and Compounds. 1994. Vol. 204. Pp. L1–L3.
Logvinkov S.M. Solid-phase exchange reactions in ceramics technology. Monograph. KHNEU Publishing House, 2013. 247 p.
Keywords:
Pulsed infrared radiation, functional ceramics, carbonate method, oxide technology, heliotechnology, gel-sol technology, mechanochemistry, pulsed tunnel effect.
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