New methods of modified ceramic technology for synthesis of functional nanostructured systems
( Pp. 18-23)
More about authors
Pankov Vladimir V.
Belarusian State University
Minsk, Republic of Belarus Ivashenko Dmitry V. magistr himicheskih nauk; aspirant kafedry fizicheskoy himii
Belarusian State University
Minsk, Republic of Belarus
Belarusian State University
Minsk, Republic of Belarus Ivashenko Dmitry V. magistr himicheskih nauk; aspirant kafedry fizicheskoy himii
Belarusian State University
Minsk, Republic of Belarus
Abstract:
This review demonstrates the possibilities of aerosol pyrolysis and spray drying methods, after their modification, for the synthesis of non-agglomerated nanoparticles of multicomponent oxides with sizes in the range of 10 - 100 nm. The role in this synthesis of substances NaCl, Na2SO4, KCl, BaB2O4, which do not participate in the synthesis reaction, is shown. In doing so, they form an inert matrix that isolates the crystallization centers from each other. Thus, the intensity of recrystallization processes during heat treatment of nanopowders is suppressed with an increase in their crystallinity without a significant increase in size. A method of thermal vibration milling and equipment for combining the operations of mixing, grinding and firing during the synthesis of powders of multicomponent oxides are proposed. In the case of its use, the temperature ranges of the formation of the reaction products are shifted, and metastable phases appear. The reasons for the increase in the efficiency of solid-phase processes in this case are established.
How to Cite:
Pankov V.V., Ivashenko D.V., (2021), NEW METHODS OF MODIFIED CERAMIC TECHNOLOGY FOR SYNTHESIS OF FUNCTIONAL NANOSTRUCTURED SYSTEMS. Computational Nanotechnology, 2 => 18-23.
Reference list:
Hawach Scientific Co. Ltd Electronic resource . URL: https://www.hawachdryer.com/what-are-the-spray-dryer-parts-and-function/(data obrashcheniya: 04.06.2021).
Pankov V. Uniform-size Ba-ferrite particles for magnetic media // Materials Science Forum. 1990. Vol. 62-64. Rr. 603-605.
Pan kov V.V. Nanorazmernye poroshki geksaferrita bariya i geterostruktury na ego osnove // Aktual nye problemy fiziki tverdogo tela. Minsk. Nauka. 2003. S. 163-173.
Basharichev A.V., Okunev I.S., Lebedev V.T. i dr. Issledovanie SVCH kharakteristik mikrosfer magnetita zoly unosa kak materiala antiradarnykh pokrytiy // Sb. statey mezhdunar. konf. Ekologicheskaya, promyshlennaya i energeticheskaya bezopasnost , 14-17 sentyabrya 2020, Sevastopol . S. 92-1011.
Pankov V., Pernet M., Germi P., Mollard P. Fine hexaferrite particles for perpendicular recording prepared by the coprecipitation method in the presence of an inert component // Journal of Magnetism and Magnetic Materials. 1993. Vol. 120. Pp. 69-73.
Pankov V., Fomenko G.V., Chichkanov A.G. Fine particles of coprecipitated hexagonal ferrite for perpendicular magnetic recording media // Book of abstracts of Int. Conf. of Magnetic recording media. Rimini M.R.M. 89. 1989. R. 89.
Pankov V.V. Modified aerosol synthesis for nanoscale hexaferrite particles preparation // Mater. Sci. Engineering. 1997. Vol. A224. Pp. 101-107.
Kotsikau D., Ivanovskaya M., Pankov V., Fedotova Y. Structure and magnetic properties of manganese-zinc-ferrites prepared by spray pyrolysis method // Solid State Sci. 2015. Vol. 39. Pp. 69-73.
Bogachev Yu.V., Nikitina A.V., Kostina A.A. et al. NMR relaxation efficiency of aqueous solutions of composite MgxZnyFe3-x-yO4 nanoparticles // Appl. Magn. Reson. 2017. Vol. 48. 715-722.
Wang Y.J. Superparamagnetic iron oxide based MRI contrast agents: Current status of clinical application // Quant. Imaging Med. Surg. 2011. Vol. 1. No. 1. Pp. 35-40.
Ivashenko D.V., Petrova E.G., Mittova I.YA. i dr. Al ternativnye istochniki syr ya i topliva // Mater. VII Mezhdunar. konf., Minsk, 28-30 maya. 2019 g. S. 120-123.
Petrova E.G., SHavshukova YA.A., Kotikov D.A. i dr. Sintez nanorazmernykh kobal t-tsinkovykh ferritov metodom nizkotemperaturnogo raspyleniya s posleduyushchim termolizom // Izvestiya akademii nauk Belarusi. Seriya: KHimicheskie nauki. 2018. T. 54. № 4. C. 406-412.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Phonon transformation mechanism in ceramic materials // Comp. nanotechnol. 2017. Vol. 4. Pp 21-35.
Pan kov V.V., Letyuk L.M., Bashkirov L.A., Litvinov S.V. Mekhanizm obrazovaniya marganets-tsinkovykh ferritov v usloviyakh termovibropomola // Poroshkovaya metallurgiya. 1988. № 11. S. 36-40.
Pankov V. Uniform-size Ba-ferrite particles for magnetic media // Materials Science Forum. 1990. Vol. 62-64. Rr. 603-605.
Pan kov V.V. Nanorazmernye poroshki geksaferrita bariya i geterostruktury na ego osnove // Aktual nye problemy fiziki tverdogo tela. Minsk. Nauka. 2003. S. 163-173.
Basharichev A.V., Okunev I.S., Lebedev V.T. i dr. Issledovanie SVCH kharakteristik mikrosfer magnetita zoly unosa kak materiala antiradarnykh pokrytiy // Sb. statey mezhdunar. konf. Ekologicheskaya, promyshlennaya i energeticheskaya bezopasnost , 14-17 sentyabrya 2020, Sevastopol . S. 92-1011.
Pankov V., Pernet M., Germi P., Mollard P. Fine hexaferrite particles for perpendicular recording prepared by the coprecipitation method in the presence of an inert component // Journal of Magnetism and Magnetic Materials. 1993. Vol. 120. Pp. 69-73.
Pankov V., Fomenko G.V., Chichkanov A.G. Fine particles of coprecipitated hexagonal ferrite for perpendicular magnetic recording media // Book of abstracts of Int. Conf. of Magnetic recording media. Rimini M.R.M. 89. 1989. R. 89.
Pankov V.V. Modified aerosol synthesis for nanoscale hexaferrite particles preparation // Mater. Sci. Engineering. 1997. Vol. A224. Pp. 101-107.
Kotsikau D., Ivanovskaya M., Pankov V., Fedotova Y. Structure and magnetic properties of manganese-zinc-ferrites prepared by spray pyrolysis method // Solid State Sci. 2015. Vol. 39. Pp. 69-73.
Bogachev Yu.V., Nikitina A.V., Kostina A.A. et al. NMR relaxation efficiency of aqueous solutions of composite MgxZnyFe3-x-yO4 nanoparticles // Appl. Magn. Reson. 2017. Vol. 48. 715-722.
Wang Y.J. Superparamagnetic iron oxide based MRI contrast agents: Current status of clinical application // Quant. Imaging Med. Surg. 2011. Vol. 1. No. 1. Pp. 35-40.
Ivashenko D.V., Petrova E.G., Mittova I.YA. i dr. Al ternativnye istochniki syr ya i topliva // Mater. VII Mezhdunar. konf., Minsk, 28-30 maya. 2019 g. S. 120-123.
Petrova E.G., SHavshukova YA.A., Kotikov D.A. i dr. Sintez nanorazmernykh kobal t-tsinkovykh ferritov metodom nizkotemperaturnogo raspyleniya s posleduyushchim termolizom // Izvestiya akademii nauk Belarusi. Seriya: KHimicheskie nauki. 2018. T. 54. № 4. C. 406-412.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Phonon transformation mechanism in ceramic materials // Comp. nanotechnol. 2017. Vol. 4. Pp 21-35.
Pan kov V.V., Letyuk L.M., Bashkirov L.A., Litvinov S.V. Mekhanizm obrazovaniya marganets-tsinkovykh ferritov v usloviyakh termovibropomola // Poroshkovaya metallurgiya. 1988. № 11. S. 36-40.
Keywords:
spray drying, aerosol pyrolysis, nanopowders, thermal vibration milling, inert matrix, agglomeration, metastable phases.
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