Landmarks in cooperation between D. Mendeleyev University de-partment of ceramics and refractories and Glass and Ceramics

Dr. Tech. Sciences V. A. KOLESNIKOV, Dr. of Chem. Sciences A. V. BELYAKOV ( e-mail: av_bel @ bk ), Dr. Sciences N. A. MAKAROV ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ) ; Federal State Budgetary Educational Institution of Higher Professional Education "Russian University of Chemical Technology named after D. I. Mendeleev" (RCTU named after D. I. Mendeleev) (Russia, Moscow)

Kolesnikov V.A. 2014.? 14 (206). P. 7. Guzman I. Ya. Essays on the history of the department of chemical technology of ceramics and refractories (1933-2003). M .: RKhTU im. D.I. Mendeleeva, 2011.200 p. Lukin E.S., Makarov N.A., Popova N.A. et al. Modern oxide ceramics and overgrowth of its applications // Constructions from composite materials. 2007.? 1. S. 3? 13. Lukin ES, Popova NA, Ganykirzh V. et al. High-strength ceramics in the Al2O3? ZrO2? Y2O3 system // Tr. in-tov MKhTI and Prague. chem.-technol. in-that. 1990.S. 17? 19. Belyakov AV Features of the introduction of nanomaterials and nanotechnologies at ceramic enterprises. Glass and ceramics. 2010.? 7.S. 7? 12. Belyakov AV Introduction of nanomaterials and nanotechnologies in ceramics plants // Glass and Ceram. 2010. V. 67. N 7? 8.P. 203? 208. Lukin E. S., Popova N. A., Zdvizhkova N. I. Strong ceramics based on aluminum oxide and zirconium dioxide // Glass and ceramics. 1993.? 9, p. 25? 30. Lukin ES, Popova NA, Zdvizhkova NI A strong ceramic based on aluminum oxide and zirconium dioxide // Glass and Ceram. 1993. V. 50. N 9? 10.P. 402? 407. Lukin ES, Makarov NA, Mosin Yu. M., Oleinik EA Analysis of the strength of corundum ceramics // Glass and ceramics. 1999.? 5.P. 26? 29. Lukin ES, Makarov NA, Mosin Yu. M., Oleinik EA Analysis of corundum ceramics strength // Glass and Ceram. 1999. V. 56. N 5? 6.P. 154? 157. Vartanyan M. A., Lukin E. S., Popova N. A. Low-temperature firing ceramics for microcircuit substrates // Glass and ceramics. 2008.? 1.P. 28? 30. Vartanyan MA, Lukin ES, Popova NA Low firing temperature ceramic for microcircuit substrates // Glass and Ceram. 2008. V. 65. N 1? 2. P. 27? 30. Makarov NA Features of sintering of corundum ceramics modified with eutectic additives // Glass and ceramics. 2006.? 4.S. 16? 18. Makarov NA Sintering specifics of corundum ceramics modified with eutectic additives // Glass and Ceram. 2006. V. 63. N 3? 4. P. 119? 121. Evteev AA, Lemeshev DO, Zhitnyuk SV, Makarov NA Calculation of optimal firing modes for ceramics based on aluminum and zirconium oxides // Glass and Ceramics. 2014.? 8, p. 15? 21. Evteev AA, Lemeshev DO, Zhitnyuk SV, Makarov NA Calculation of the Optimal Firing Regimes for Ceramics Based on Zirconium and Aluminum Dioxide // Glass and Ceram. 2014. V. 71. N 7? 8.P. 275? 280. Makarov NA The use of additives that form a liquid phase during firing in the technology of corundum ceramics // Glass and ceramics. 2003.? 10, p. 31? 34. Makarov NA Use of Additives Forming Liquid Phase in Firing in Corundum Ceramics Technology (A Review) // Glass and Ceram. 2003. V. 60. N 9? 10.P. 334? 338. Belyakov A. V., Lukin E. S., Safronova T. V. et al. Porous materials based on calcium phosphates // Glass and ceramics. 2008.? 10, p. 17? 19. Belyakov AV, Lukin ES, Safronova TV et al. Porous materials made from calcium phosphates (Review) // Glass and Ceram. 2008. V. 65. N 9? 10.P. 337? 339. Lukin ES, Kuteinikova AL, Popova NA Porous permeable ceramics from aluminum oxide // Glass and ceramics. 2003.? 3.S. 17? 18. Lukin ES, Kuteinikova AL, Popova NA Porous Permeable Ceramics Based on Aluminum Oxide // Glass and Ceram. 2003. V. 60. N 3? 14.P. 81? 82. Gasparyan M. D., Grunsky V. N., Bespalov A. V. et al. Ceramic highly porous block-cell catalysts for the oxidation of hydrogen isotopes with a supported palladium active layer // Glass and Ceramics 2014.? 9, p. 24? 27. Gasparyan MD, Grunskii VN, Bespalov AV et al. Ceramic High-Porosity Honeycomb Catalysts for the Oxidation of Hydrogen Isotopes with a Deposited Palladium Active Layer // Glass and Ceram. 2014. V. 71. N 9? 10.P. 320? 323. Gasparyan M. D., Grunsky V. N., Bespalov A. V. et al. Application of ceramic highly porous block-cell catalysts with a deposited palladium active layer in the process of hydrogen oxidation // Glass and Ceramics. 2014.? 11, p. 22? 25. Gasparyan MD, Grunskii VN, Bespalov AV et al. Application of High-Porosity Ceramic Block-Cellular Palladium Catalysts in the Oxidation of Hydrogen Isotopes // Glass and Ceram. 2014. V. 71. N 11? 12.P. 396? 399. Vanchurin VI, Dzhumamukhamedov D. Sh., Popova NA, Copper-containing catalyst with a fixed active component on a silica-alumina carrier // Glass and Ceramics. 2014.? 11, p. 28? 34. Vanchurin VI, Dzhumamukhamedov D. Sh., Popova NA Copper-Containing Catalyst with Fixed Active Component on an Alumina-Silica Carrier // Glass and Ceram. 2014. V. 71. N 11? 12.P. 405? 409. Guseva TV, Begak MV, Molchanova Ya. P. et al. Prospects for the introduction of the best available technologies and the transition to integrated environmental permits in the production of glass and ceramics // Glass and Ceramics. 2014.? 7, p. 26? 36. Guseva TV, Begak MV, Molchanova Ya. P. Prospects for Adopting the Best Available Technologies and Moving to Comprehensive Environmental Permits in the Production of Glass and Ceramics (Review) // Glass and Ceram. 2014. V. 71. N 7? 8.P. 245? 253. Kolesnikov V. A., Ilyin V. I., Brodsky V. A. et al. Improvement of electroflotation processes of waste water treatment at enterprises of the ceramic industry // Glass and ceramics. 2014.? 12.S. 3? 7. Kolesnikov VA, Il? In VI, Brodskii VA et al. Improvement of Electroflotation Treatment of Waste Waters from Ceramic Enterprises // Glass and Ceram. 2014. V. 71. N 11? 12.P. 421? 424. Kolesnikov VA, Lemeshev DO, Yarovaya OV et al. Corundum-based substrates for membrane processes // Glass and ceramics. 2015.? 5.P. 39? 42. Belyakov AV, Vartanyan MA, Chebysheva AS Composite ceramic materials based on calcium phosphates with low sintering temperature // Advances in chemistry and chemical technology. M .: RKhTU im. D.I.Mendeleeva, 2013.T. XXVII. ? 5 (145). S. 69? 74. Belyakov AV, Vartanyan MA, Polutina ES, Dzhakeeva AI Composite bioactive materials with surface modification with aragonite // Coll. mater. VI Int. scientific and technical conf. "Engineering and Technology: New Development Prospects". M .: Sputnik +, 2012.S. 77? 80. Zhitnyuk SV, Makarov NA, Guseva TV New armored ceramic materials based on silicon carbide // Glass and ceramics. 2014.? 1.S. 7? 10. Zhitnyuk SV, Makarov NA, Guseva TV New Silicon Carbide Based Ceramic Armor Materials // Glass and Ceram. 2014. V. 71. N 1? 2.P. 6? 9. Uvarov V. I., Borovinskaya I. B., Lukin E. S. et al. Catalytically active ceramic-metal membrane for processing by-products in the production of fuel materials // Glass and ceramics. 2014.? 8, p. 10? 14. Uvarov VI, Borovinskaya IP, Lukin ES et al. Catalytically Active Cermet Membrane for Converting Byproducts from the Production of Combustibles // Glass and Ceram. 2014. V. 71. N 7? 8.P. 270? 274. Fedosova NA, Faykov PP, Popova NA et al. Composite material based on corundum reinforced with carbon nanotubes // Glass and Ceramics. 2014.? 4.S. 22? 26. Fedosova NA, Faikov PP, Popova NA et al. Effect of the Nature of Carbon Nanotubes on the Structure and Strength of Ceramic Composites // Glass and Ceram. 2014. V. 71. N 3? 4.P. 128? 131. Bakunov VS, Lukin ES, Sysoev EP Peculiarities of creep of polycrystalline ceramics at temperatures up to 1600? C // Glass and ceramics. 2012.? 2.P. 25? 28. Bakunov VS, Lukin ES, Sysoev EP Particulars of polycrystalline oxide ceramic creep at temperatures to 1600 ° C // Glass and Ceram. 2012. V. 69. N 1? 2. P. 61? 64. Bakunov VS, Lukin ES, Sysoev EP Long-term strength of dense polycrystalline ceramics based on magnesium oxide at temperatures of 1600 ° C // Glass and ceramics. 2013.? 6.S. 16? 19. Bakunov VS, Lukin ES, Sysoev EP Creep rupture strength of magnesium oxide based dense polycrystalline ceramic at temperatures to 1600 ° C // Glass and Ceram. 2013. V. 70. N 5? 6.P. 216? 218. Bakunov VS, Lukin ES, Sysoev EP Time and deformation before destruction of dense polycrystalline ceramics at temperatures up to 1600 ° C // Glass and ceramics. 2014.? 3.S. 13? 18. Bakunov VS, Lukin ES, Sysoev EP Time and Strain to Rupture of Dense Polycrystalline Oxide Ceramic at Temperatures to 1600 ° C // Glass and Ceram. 2014. V. 71. N 3? 4. P. 86? 91. Uvarov VI, Borovinskaya IP, Lukin ES Formation of materials with open porosity based on nickel, aluminum and cobalt in the processes of self-propagating high-temperature synthesis in vacuum // Glass and Ceramics. 2013.? 1.S. 20? 23. Uvarov VI, Borovinskaya IP, Lukin ES Formation of Open Porosity Materials Based on Nickel, Aluminum and Cobalt in Self-Propagating High-Temperature Synthesis in Vacuum // Glass and Ceram. 2013. V. 70. N 1? 2. P. 18? 21. Krekhova E. Yu., Zakharov A. I., Popova N. A., Gasparyan M. D. Glass melting vessels for low-tonnage optical glass production // Glass and ceramics. 2014.? 4.S. 24? 28. Lemeshev DO, Makarov NA, Ikonnikov KI Modern optically transparent composite ceramic materials // Glass and ceramics. 2012.? 5.S. 46? 48. Lemeshev DO, Makarov NA, Ikonnikov KI Advanced optically transparent composite ceramic materials // Glass and Ceram. 2012. V. 69. N 5? 6.P. 178? 180. Belyakov A. V., Kuznetsova I. G., Kuftyrev R. Yu. Et al. Metallization of ceramics from aluminum nitride // Glass and ceramics. 2012.? 8, p. 26? 30. Belyakov AV, Kuznetsova IG, Kuftyrev R. Yu. et al. Metallization of aluminun nitride ceramic (Review) // Glass and Ceram. 2012. V. 69. N 7? 8.P. 270? 273. Belyakov AV, Razumnova IV, Demonis IM, Folomeykin Yu. I. Easily removable ceramic rods for casting GTE blades according to investment models // Glass and ceramics. 2012.? 4.S. 26? 31. Belyakov AV, Razumnova IV, Demonis IM, Folomeikin Yu. I. Easily removed ceramic rods for casting gas-turbine engine blades using molding patterns // Glass and Ceram. 2012. V. 69. N 3? 4. P. 125? 129. Lukin ES, Vartanyan MA Low Temperature Co-fired Ceramics? a Novel Best Available Technique for Microwave Applications // Sb. tr. II Int. seminar-conf. "Integration of chemical science with production, through innovation to progress". Almaty, 2012.S. 35? 36