Search Results - "Nazaretyan, Kh. T."

NiO reduction by Mg + C combined reducer at high heating rates by Zakaryan, M. K., Nazaretyan, Kh. T., Aydinyan, S. V., Kharatyan, S. L.

“…The mechanism and kinetics of nickel oxide reduction by Mg + C combined reducer at non-isothermal conditions in a wide range of high heating rates…”
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Solution combustion synthesis of nanostructured molybdenum carbide by Kirakosyan, H. V., Nazaretyan, Kh. T., Mnatsakanyan, R. A., Aydinyan, Sofiya V., Kharatyan, S. L.

“…A novel approach for the preparation of molybdenum carbide by solution combustion synthesis (SCS) combined with subsequent programmed heating of SCS products…”
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Reduction mechanism of WO3 + CuO mixture by combined Mg/C reducer: Non-isothermal conditions—high heating rates by Aydinyan, S. V., Nazaretyan, Kh. T., Zargaryan, A. G., Tumanyan, M. E., Kharatyan, S. L.

“…The mechanism and kinetics of tungsten and copper oxides joint reduction by Mg + C combined reducer was studied at high heating rates by thermal analysis…”
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Reduction mechanism of WO.sub.3 + CuO mixture by combined Mg/C reducer by Aydinyan, S. V, Nazaretyan, Kh. T, Zargaryan, A. G, Tumanyan, M. E, Kharatyan, S. L

“…The mechanism and kinetics of tungsten and copper oxides joint reduction by Mg + C combined reducer was studied at high heating rates by thermal analysis…”
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Reduction mechanism of WO3 + CuO mixture by combined Mg/C reducer by Aydinyan, S V, Nazaretyan, Kh T, Zargaryan, A G, Tumanyan, M E, Kharatyan, S L

“…The mechanism and kinetics of tungsten and copper oxides joint reduction by Mg + C combined reducer was studied at high heating rates by thermal analysis…”
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