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S. Turnaev, G. Bitsoev, G. Kil’govatov, V. Kiiko (2013)
Impurity Phases in Beryllium Oxide CeramicRefractories and Industrial Ceramics, 53
M. Gorbunova, I. Shein, Yu. Makurin, V. Kijko, A. Ivanovskii (2010)
Effect of Li and Na impurities on the electronic and magnetic properties of beryllium oxideJournal of Structural Chemistry, 51
(2006)
Ivanovskii, Ceramics Based on Beryllium Oxide: Production, Physico-Chemical Properties, and Use [in Russian
V. Kiiko, I. Piratinskaya, Yu. Vereshchagin (1992)
EFFECT OF IRON IMPURITIES ON THE COLOR OF BERYLLIUM CERAMICInorganic Materials, 28
G. Akishin, S. Turnaev, V. Vaispapir, M. Gorbunova, Yu. Makurin, V. Kiĭko, A. Ivanovskii (2009)
Thermal conductivity of beryllium oxide ceramicRefractories and Industrial Ceramics, 50
V. Shabashov, V. Kijko, I. Dmitriev, A. Mukoseev (2004)
The state of iron impurities in a beryllium ceramic as determined from NGRS dataCeramics International, 30
(2010)
Thermal conductivity and ultrasonic velocity in ceramics based on beryllium oxide,
G. Akishin, S. Turnaev, V. Vaispapir, V. Kiiko, I. Shein, E. Pletneva, M. Timofeeva, A. Ivanovskii (2011)
Composition of beryllium oxide ceramicsRefractories and Industrial Ceramics, 51
Yu. Makurin, V. Kiiko, I. Shein, V. Maslov, A. Ivanovskii (2010)
Single crystals and light-transmitting BeO-ceramic for electronic technologyRefractories and Industrial Ceramics, 51
V. Kiiko (2004)
Transparent Beryllia Ceramics for Laser Technology and Ionizing Radiation DosimetryRefractories and Industrial Ceramics, 45
V. Kiiko, I. Dmitriev, I. Kashcheev (1991)
CAUSE OF THE COLORATION OF BERYLLIUM CERAMICSInorganic Materials, 27
(2006)
Production , physico - chemical properties , and transmission of SHF radiation by a ceramic based on BeO , ” Ogneupory i Tekh
VS Kiiko, YN Makurin, AL Ivanovskii (2006)
Ceramics Based on Beryllium Oxide: Production, Physico-Chemical Properties, and Use [in Russian]
(2005)
Ivanovskii, “Aspects of the impurity states of lithium and sodium in a beryllium oxide ceramic,
MA Gorbunova, IR Shein, YN Makurin (2010)
Effect of Li and Na impurities on the electronic and magnetic properties of beryllium oxideZh. Strukt. Khimiya., 51
Results are presented from a study of the effect of impregnating specimens of a BeO ceramic obtained from low- (50 wt.%) and high-firing (50 wt.%) BeO powders on the physic-chemical properties of the ceramic. The microstructure of the ceramic is studied and it is established that the average size of the microcrystals in the ceramic is smaller after impregnation than before it. The difference in the microstructure of the specimens affects their mechanical strength - it is higher in specimens impregnated with a solution of Na2CO3 than in specimens that are not impregnated.
Refractories and Industrial Ceramics – Springer Journals
Published: Mar 12, 2014
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