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YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties

YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties

The morphology and degree of agglomeration of the precursor and YAG-ceramic powders were investigated as functions of the grinding conditions, followed by an assessment of the influence of these parameters on the optical properties and structure of the ceramic. YAG-precursor powders were obtained by...

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Главные авторы: Suprunchuk, V. E., Супрунчук, В. Е., Kravtsov, A. A., Кравцов, А. А., Lapin, V. A., Лапин, В. А., Tarala, V. A., Тарала, В. А., Tarala, L. V., Тарала, Л. В., Medyanik, E. V., Медяник, Е. В., Malyavin, F. F., Малявин, Ф. Ф.
Формат: Статья
Язык:English
Опубликовано: 2024
Темы:
Degree of agglomeration
Size-reduction
Grinding
Light transmission
Nanopowder
YAG
Online-ссылка:https://dspace.ncfu.ru/handle/123456789/27574
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id ir-123456789-27574
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spelling ir-123456789-275742024-05-24T09:59:50Z YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties Suprunchuk, V. E. Супрунчук, В. Е. Kravtsov, A. A. Кравцов, А. А. Lapin, V. A. Лапин, В. А. Tarala, V. A. Тарала, В. А. Tarala, L. V. Тарала, Л. В. Medyanik, E. V. Медяник, Е. В. Malyavin, F. F. Малявин, Ф. Ф. Degree of agglomeration Size-reduction Grinding Light transmission Nanopowder YAG The morphology and degree of agglomeration of the precursor and YAG-ceramic powders were investigated as functions of the grinding conditions, followed by an assessment of the influence of these parameters on the optical properties and structure of the ceramic. YAG-precursor powders were obtained by chemical coprecipitation. The morphology and size of the agglomerates and crystallites were assessed by means of scanning electron microscopy, laser diffraction analysis, x-ray diffraction analysis, and Brunauer–Emmett–Teller gas adsorption. It was discovered that grinding of the YAG precursor powders can decrease the degree of agglomeration of the ceramic powder. It was found that with a mass ratio of grinding balls to precursor powder of 6.75/1 and a mass ratio of the grinding medium to the mass of the precursor powder of 4.5/1, optimal conditions obtain for providing the necessary granulometric characteristics and the highest mono-dispersity. In summary, by such means the properties of YAG optical ceramic can be improved by using of an additional grinding stage for the powders synthesized by chemical deposition and by selecting suitable grinding modes. 2024-05-24T09:57:38Z 2024-05-24T09:57:38Z 2024 Статья Suprunchuk, V.E., Kravtsov, A.A., Lapin, V.A., Tarala, V.A., Tarala, L.V., Medyanik, E.V., Malyavin, F.F. YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties // Glass and Ceramics (English translation of Steklo i Keramika). - 80 (11-12). - pp. 479-486. - DOI: 10.1007/s10717-024-00637-6 https://dspace.ncfu.ru/handle/123456789/27574 en Glass and Ceramics (English translation of Steklo i Keramika) application/pdf application/pdf
institution СКФУ
collection Репозиторий
language English
topic Degree of agglomeration
Size-reduction
Grinding
Light transmission
Nanopowder
YAG
spellingShingle Degree of agglomeration
Size-reduction
Grinding
Light transmission
Nanopowder
YAG
Suprunchuk, V. E.
Супрунчук, В. Е.
Kravtsov, A. A.
Кравцов, А. А.
Lapin, V. A.
Лапин, В. А.
Tarala, V. A.
Тарала, В. А.
Tarala, L. V.
Тарала, Л. В.
Medyanik, E. V.
Медяник, Е. В.
Malyavin, F. F.
Малявин, Ф. Ф.
YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties
description The morphology and degree of agglomeration of the precursor and YAG-ceramic powders were investigated as functions of the grinding conditions, followed by an assessment of the influence of these parameters on the optical properties and structure of the ceramic. YAG-precursor powders were obtained by chemical coprecipitation. The morphology and size of the agglomerates and crystallites were assessed by means of scanning electron microscopy, laser diffraction analysis, x-ray diffraction analysis, and Brunauer–Emmett–Teller gas adsorption. It was discovered that grinding of the YAG precursor powders can decrease the degree of agglomeration of the ceramic powder. It was found that with a mass ratio of grinding balls to precursor powder of 6.75/1 and a mass ratio of the grinding medium to the mass of the precursor powder of 4.5/1, optimal conditions obtain for providing the necessary granulometric characteristics and the highest mono-dispersity. In summary, by such means the properties of YAG optical ceramic can be improved by using of an additional grinding stage for the powders synthesized by chemical deposition and by selecting suitable grinding modes.
format Статья
author Suprunchuk, V. E.
Супрунчук, В. Е.
Kravtsov, A. A.
Кравцов, А. А.
Lapin, V. A.
Лапин, В. А.
Tarala, V. A.
Тарала, В. А.
Tarala, L. V.
Тарала, Л. В.
Medyanik, E. V.
Медяник, Е. В.
Malyavin, F. F.
Малявин, Ф. Ф.
author_facet Suprunchuk, V. E.
Супрунчук, В. Е.
Kravtsov, A. A.
Кравцов, А. А.
Lapin, V. A.
Лапин, В. А.
Tarala, V. A.
Тарала, В. А.
Tarala, L. V.
Тарала, Л. В.
Medyanik, E. V.
Медяник, Е. В.
Malyavin, F. F.
Малявин, Ф. Ф.
author_sort Suprunchuk, V. E.
title YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties
title_short YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties
title_full YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties
title_fullStr YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties
title_full_unstemmed YAG-Ceramic Powders — Size-Reduction Influence on Optical Ceramic Properties
title_sort yag-ceramic powders — size-reduction influence on optical ceramic properties
publishDate 2024
url https://dspace.ncfu.ru/handle/123456789/27574
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