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VF Tsarev, LS Koneva, NV Solonin (1975)
Synthesis, Manufacturing Technology and Test methods for Heat-Resistant Inorganic materials [in Russian]
LK Bondareva (1986)
Solidification and sintering of glass powders in the system Li2O–Al2O3–SiO2Neorgan. Materially, 22
YuE Pivinskii (2003)
Ceramic and Refractory materials [in Russian]
YuE Pivinskii (2003)
Theoretical Aspects of Ceramic and Refractory technology [in Russian]
EI Suzdal’tsev (2001)
New direction in the field of synthesizing highly thermal shock resistant radioparent glass ceramic materialsIFZ, 74
Y Keizo (2005)
Forming methods, science and applicationsCeramics Japan, 40
Yu E Pivinskii, EI Suzdaltsev (2008)
Quartz Ceramic and Refractories in 2 Vol., Vol. 1, Theoretical Bases and Production processes: Reference edition [in Russian]
AG Dobrovol’skii (1974)
Slip Casting [in Russian]
E. Suzdaltsev (2005)
Fabrication of high-density quartz ceramics: Research and practical aspects. Part 4. Properties of mixed quartz glass slips and preforms prepared by casting into porous moldsRefractories and Industrial Ceramics, 46
VN Filipovich, AN Kalinina, DD Dmitriev (1986)
Surface growth of crystals as a catalyst for volumetric crystallization glass in sitall powder technology [in Russian]
JD Walton, NE Poulos (1962)
Slip cast metal fiber-reinforced ceramicsJ. Amer. Ceram. Soc., 41
K Nihara, D Tatami (2003)
New tendencies in the study and development of engineering ceramicsCeramics Japan, 38
E. I. Suzdal’tsev, V. I. Kurakin (2001)
Design and theoretical model for forming the wall thickness of a ceramic preform during casting from aqueous slips into a porous moldOgneupory Tekhn. Keram., 10
Yu E Pivinskii, EI Suzdal’tsev (2008)
Quartz Ceramic and Refractories in 2 Vol., Vol. 2, Materials, Their Properties and Fields of Application: Reference edition [in Russian]
VI Solov’ev (1986)
Catalytic Crystallization of Glass: Coll. Works [in Russian]
E. I. Suzdal’tsev (2002)
Effect of heat treatment conditions on structure and property formation of glass and glass ceramic of lithium aluminosilicate compositionOgneupory Tekhn. Keram., 4
EI Suzdal’tsev (2002)
Features of structure and property formation for sitall of lithium aluminosilicate composition during heat treatmentIFZh, 75
E. I. Suzdal’tsev, T. V. Zaichuk, T. I. Rozhkova (2003)
Use of waste materials in the production of glass ceramic of lithium aluminosilicate compositionOgneupory Tekhn. Keram., 6
EM Maslov (1974)
Grinding Theory [in Russian]
NA Toropov, VP Barzakovskii (1965)
Silicate System Composition Diagrams [in Russian]
E. I. Suzdal’tsev, T. I. Rozhkova, T. V. Zaichuk (2005)
Strengthening of glass ceramic material of lithium aluminosilicate composition prepared by ceramic technologyOgneupory Tekhn. Keram., 5
Existing ceramic technology is analyzed for producing high-speed zenith guided rocket antenna radomes made of glass ceramic OTM-357. This is the main production operations, and their disadvantages are noted. Prospects are considered for modernizing the technology.
Refractories and Industrial Ceramics – Springer Journals
Published: Apr 5, 2011
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