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A. G. Karaulov, I. F. Usatikov, N. T. Dyrda (1990)
Development of the manufacturing technology of dense baddeleyite refractories for steel castingOgneupory, 8
I. F. Usatikov, R. E. Vol'fson, N. M. Chudnova (1990)
Ceramics based on partially stabilized zirconiaOgneupory, 5
A. Bakalkin, N. Pitak, B. Starshinov, R. Fedoruk, R. Shulyak, V. Vasilchenko, V. Zima, I. Davydov, R. Shcherbina, G. Belokrys (1975)
High-density kaolin refractories for the lining of a 5000 m3 blast furnaceRefractories, 16
I. S. Smelyanskii, S. A. Zhikharevich (1934)
Quality of dinas coke stored by the Krasnogorovskii plantOgneupory, 8
I. S. Smelyanskii, L. V. Drazhnikova (1934)
Investigation of the effect of the granulometric composition of quartzites on the properties of dinasOgneupory, 11
B. Ya. Sukharevskii, B. G. Alapin, E. I. Aksel'rod (1968)
Theoretical and Technological Research in the Field of Refractories, Coll. of Sci. Works, Issue 11
P. P. Budnikov, A. S. Berezhnoi (1949)
Solid-Phase Reactions
S. A. Zhikharevich, E. A. Gin'yar, L. A. Kozyreva (1963)
Sb. Nauch. Trudov, Issue 7
A. S. Berezhnoi (1970)
Multicomponent Oxide Systems
N. V. Pitak, R. M. Fedoruk, L. M. Degtyareva (1993)
Concretes containing silicon carbide for lining shafts of blast furnacesOgneupory, 6
A. S. Frenkel', K. M. Shmukler (1957)
Increasing the durability of magnesite-chromite arch brickByul. NTI VNIIO, 2
V. A. Ustichenko, V. V. Primachenko, N. V. Pitak (1978)
A mixture for manufacturing a refractory material, USSR Inventor's Certificate No. 628135Otkr., Izobr., Prom. Obrazisy, Tov. Znaki, 38
V. V. Primachenko (1987)
Results of scientific research for the industryOgneupory, 11
N. V. Pitak, R. M. Fedoruk, L. M. Degtyareva (1989)
Concrete for lining shafts of blast furnacesOgneupory, 6
A. S. Berezhnoi, R. A. Kordyuk, N. V. Gul'ko (1963)
Sb. Nauch. Trudov UkrNIIO, Issue 7
N. V. Pitak, A. M. Gavrish, E. I. Zoz (1972)
Processes occurring in the Al2O3−NiO system heated in reducing and oxidizing mediaIzv. Akad. Nauk SSSR, Neorg. Mater., 8
V. Ya. Tolstaya, V. P. Kravchenko (1995)
Quality of Refractories: A Way to Power Conservation and Efficiency, Coll. of Sci. Works of UkrNIIO
G. T. Bardagov (1957)
Sb. Nauch. Trudov NTO ChM, Vol. 12
V. A. Ustichenko, N. V. Pitak, V. S. Shapovalov (1990)
Shaping of mullite and its propertiesOgneupory, 7
A. I. Kramarenko (1938)
Production of refractories based on secondary kaolins of the Novoselitskoe DepositOgneupory, 9
A. N. Gaodu, E. P. Saenko, A. A. Pirogov (1977)
Production of Special Refractories, Tematich. Otrasl. Sb. Minchermet SSSR, Issue 5
N. V. Pitak, R. M. Fedoruk, T. P. Khmelenko (1985)
Refractories made of silicon carbide for lining shafts of blast furnacesMetal. Gornorud. Prom.-st., 2
V. V. Primachenko (1994)
A vibroviscometer and a method for determining viscosity in limitingly concentrated coarse-grain mixturesOgneupory, 5
G. V. Kukolev (1955)
Sb. Nauch. Trudov Inst., Issue 1
A. V. Tereshchenko, O. M. Margulis (1937)
Dolomite refractory brickSb. NITO Silikat. Prom, 1
D. M. Gavrish, I. S. Kainarskii (1976)
Problems of the development of the refractory industry in the 10th Five-Year PlantOgneupory, 5
G. B. Taubin (1935)
Rationalization of manual shaping of coke dinasOgneupory, 7
R. M. Fedoruk, N. V. Pitak, L. K. Savina (1995)
Silicon carbide refractories for lining reactors for the production of aluminum chlorideOgneupory, 9
V. V. Primachenko (1994)
A study of disruption processes in coagulation structures in vibration of coarse-grain thixotropic chamottekaolin mixturesOgneupory, 10
E. I. Orlov, V. A. Tereshchenko (1932)
Slag portland cement of grade ‘C’ with an elevated content of clinkerStroit. Mater., 6
N. Chudnova, I. Usatikov, É. Degtyareva (1985)
Influence of the properties of refractory powders on their granulation and the properties of the granulesRefractories, 26
G. V. Kukolev, K. M. Shmukler (1934)
A study of expansion in coke dinasOgneupory, 8
A. G. Karaulov, T. G. Gal'chenko, N. M. Chudnova (1995)
Quality of Refractories: A Way to Power Conservation and Efficiency, Coll. of Sci. Works
A. S. Berezhnois (1988)
Multicomponent Alkali Oxide Systems
I. S. Smelyanskii (1934)
On first-grade dinas for open-hearth furnaces from crystalline quartzites of Krivoi RogStal', 2-3
A. S. Berezhnoi, N. V. Gul'ko (1955)
The MgO−Al2O3−TiO2 systemUkr. Khim Zh., 21
E. I. Orlov, A. G. Grishko, A. A. Pirogov (1931)
On the use of low-grade raw material for the production of high-voltage insulatorsUkr. Silikaty, 8
A. N. Gaodu, I. G. Subochev, N. V. Pitak (1975)
Refractory fibers made of natural raw materialsOgneupory, 8
A. G. Karaulov, I. M. Levin, A. S. Pchelkina (1986)
Use of zirconia refractories in continuous furnacesSteklo Keram., 5
V. V. Primachenko (1994)
A study of disruption of coagulation structures in vibration of coarse-grain thixotropic corundum-mullitealumina and corundums-zircon-alumina mixturesOgneupory, 8
G. V. Kukolev (1966)
Chemistry of Silicon and Physical Chemistry of Silicates
G. V. Kukolev, I. E. Dudavskii, N. P. Volobueva (1941)
Sb. Rabot Inst., Issue XLVI
M. K. Shmat'ko, G. V. Kukolev (1928)
On determining magnesium in limestones and clays without preliminary separation of CaOUkr. Silikaty, 8
A. V. Tereshchenko, I. E. Dudavskii (1935)
Controlling plastic properties of clayOgneupory, 2
M. A. Uralov, A. S. Berezhnoi (1937)
Olivine (dunite) refractoriesSb. NITO Silikat. Prom, 1
V. S. Kvitko (1939)
Production of refractories of elevated quality from kaolins of Maidan-VilaOgneupory, 8
A. Gaodu, I. Subochev, N. Pitak, D. Yuzvuk, G. Kalugin, V. Kislitsin, V. Kovylov (1975)
Refractory fiber from natural starting materialsRefractories, 16
A. P. Bakalkin, N. V. Pitak, B. N. Starshinov (1975)
Dense kaolin refractories for lining a 5000-m3 blast furnaceOgneupory, 1
S. Ya. Tsypin, V. V. Martynenko (1997)
Scientific and Practical Results in Manufacture and Service of Refractories, Coll. of. Sci. Works of UkrNIIO
E. P. Budnikov (1934)
Chemically stable materials for furnaces in the production of sodium sulfideNovosti Tekhn., 31
R. Fedoruk, N. Pitak, L. Savina (1995)
Silicon carbide articles for linings of reactors for the production of aluminum chlorideRefractories, 36
N. Pitak, R. Fedoruk, L. Degtyareva, E. Aksel'rod (1993)
Silicon carbide-containing concretes for lining blast furnace shaftsRefractories, 34
N. V. Pitak, V. V. Primachenko (1993)
On the anniversary of the journal ‘Refractories’,Ogneupory, 5
I. Usatikov, E. Zoz, R. Vol'fson, N. Chudnova, E. Loenko, G. Gogotsi, V. Galenko (1990)
Ceramics based on partially stabilized zirconium dioxideRefractories, 31
N. V. Pitak, V. L. Bulakhs (1982)
Refractories for high-temperature air-heaters for blast furnacesStal', 10
V. V. Primachenko (1994)
A study of regeneration processes in coagulation structures of vibrocast coarse-grain thixotropic mixturesOgneupory, 11
A. G. Karaulov, T. M. Shlyakhova, V. A. Sennikov (1991)
Operation of zirconia sectors in continuous gas-flame furnacesSteklo Keram., 4
T. V. Ivashchenko, V. V. Primachenko, N. V. Pitak (1984)
Shaping of Refractories and Their Service, Tematich. Sb. Nauch. Trudov
A. P. Bakalkin, N. V. Pitak (1976)
Scientific achievements for the industryOgneupory, 10
I. S. Kainarskii (1934)
Linear changes in dinas in the firing processOgneupory, 12
N. Pitak, R. Fedoruk, L. Degtyareva, L. Gritsuk, V. Chechenev (1989)
A concrete for lining blast furnace shaftsRefractories, 30
N. V. Pitak, A. M. Gavrish, E. I. Zoz (1974)
Phase transformations in the SiO2−NiO system heated in oxidizing and reducing mediaUkr. Khim. Zh., XL
É. V. Degtyareva, B. G. Alapin, S. V. Lysak (1974)
Abstr. Rep. IV All-Union Conf. on the High-Temperature Chemistry of Silicates and Oxides
A. S. Frenkel', A. S. Berezhnoi (1935)
On the problem of manufacturing chromite refractoriesOgneupory, 6
I. F. Usatikov, R. E. Vol'fson, N. M. Chudnova (1990)
Effect of the method of manufacturing zirconia ceramics on its mechanical strengthOgneupory, 9
I. G. Shakhnovich, A. A. Pirogov (1934)
Kirovskoe clay: a raw material for chamotte articles with an elevated content of Al2O3Ogneupory, 10
V. V. Primachenko (1994)
A study of the formation of coagulation structures in vibrocast coarse-grain thixotropic mixturesOgneupory, 5
I. S. Smelyanskii, V. I. Tokarev, I. P. Rozhkov (1935)
Dinas from quartzites of the Ocheretinskoe DepositOgneupory, 1
N. V. Pitak, T. A. Anisimova, A. M. Gavrish (1972)
Effect of nickel nitrate on phase changes in mullite and mullite-corundum refractories heated in oxidizing and reducing mediaOgneupory, 5
A. A. Pirogov (1935)
Conditions of service of refractories in furnaces for pitch cokingKoks Khim., 1
V. V. Primachenko, R. S. Shulyak, V. L. Bulakh, V. V. Martynenko (1987)
Highly efficient thin-walled hexagonal checker articles for air heaters of blast furnacesOgneupory, 10
G. V. Kukolev (1955)
Sb. Nauch. Trudov, Issue XLVIII
A. Karaulov, I. Usatikov, N. Dyrda (1990)
Developing a technology for dense baddeleyite refractories for steel castingRefractories, 31
P. P. Krivoruchko, V. P. Kravchenko, B. G. Alapin (1981)
Chromium oxide refractories with diminished density and thermal conductivity for glass-melting furnaces for the production of fiber glassOgneupory, 4
V. V. Primachenko, N. V. Pitak, V. P. Kravchenko, V. Ya. Tolstaya (1993)
Scientific and Engineering Research on the Production and Use of Refractories, Tematich. Otrasl. Sb. UkrNIIO
I. F. Usatikov, É. V. Degtyareva, N. M. Chudnova (1985)
Effect of the properties of refractory powders on their granulation and granule propertiesOgneupory, 8
E. I. Orlov (1930)
On the composition of fine ceramic mixturesUkr. Silikaty, 11–12
Refractories and Industrial Ceramics VoL 38, Nos. 9 - 70, 1997 UDC 666.762.94 SEVENTIETH ANNIVERSARY OF THE UKRAINIAN RESEARCH INSTITUTE OF REFRACTORIES V. V. Primachenko, 1 N. V. Pitak, 1 and V. V. Martynenko 1 Translated from Ogneupory i Tekhnicheskaya Keramika, No. 9, pp. 2 - 12, September, 1997. Original article submitted July 18, 1997. ver. S. A. Berzon and Ya. O. Sherman developed a method The Ukrainian Research Institute of Refractories (ini- tially the Ukrainian Research Institute for the Silicate Indus- for determining the volume and porosity of ceramic mixtures. try) was created together with its experimental-industrial base G. V. Goikhman, I. S. Pekarskii, and Ya. O. Sherman sug- by a decision of the Supreme Council of the People's Eco- gested a method for determining humus in clays. A. V. Ter- nomy of the Ukrainian Soviet Socialist Republic on Octo- eshchenko and V. A. Palauzov invented new methods for de- ber 31, 1927. termining TiO: in refractory clays and methods for chemical Its organizers were E. I. Orlov, E E Budnikov, and analysis of magnesites, dolomites, refractory clays, and M. A. Uralov. The first years were devoted to setting up the quartzites and articles made of them. A.
Refractories and Industrial Ceramics – Springer Journals
Published: Nov 26, 2007
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