Search Results - "Aydinyan, S V"

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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Cu–Mo composite powders obtained by combustion–coreduction process by Aydinyan, S.V., Kirakosyan, H.V., Kharatyan, S.L.

“…Cu–Mo composite powders were prepared by coreduction of CuO and MoO3 oxides with Mg–C combined reducer in combustion process by applying reactions' coupling…”
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Preparation of Fine-grained Silicon from Serpentine Mineral by Magnesiothermic Reduction of Silica in the Presence of Reaction Products as Diluents by Zakaryan, M. K., Aydinyan, S. V., Kharatyan, S. L.

“…In the work, the preparation of fine-grained silicon was performed in combustion mode by magnesiothermic reduction of silica, obtained from serpentine mineral,…”
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Self-sustaining reduction of MoO3 by the Mg–C mixture by Aydinyan, S V, Gumruyan, Zh, Manukyan, Kh V, Kharatyan, S L

“…The possibility of molybdenum oxide (MoO3) reduction by the Mg-C mixture was investigated using a self-sustaining combustion regime. Thermodynamic analyses of…”
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SHS Reprocessing of Copper Oxide Waste into Copper Powder by Mahmoudi, H. A., Abovyan, L. S., Aydinyan, S. V., Kharatyan, S. L.

“…Here we report on a single-step, eco-friendly, and facile approach to combustion-assisted reprocessing of oily copper waste into copper powder without…”
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Composite W–Cu powders by joint reduction of oxides in combustion mode by Kirakosyan, H. V., Aydinyan, S. V., Kharatyan, S. L.

“…Composite powders W–Cu were prepared via joint reduction of WO 3 and CuO oxides with Mg‒C combined reducer in a combustion mode by using the method of coupled…”
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Fabrication of Cu-W Nanocomposites by Integration of Self-Propagating High-Temperature Synthesis and Hot Explosive Consolidation Technologies by S. V. Aydinyan, H. V. Kirakosyan, M. K. Zakaryan, L. S. Abovyan, S. L. Kharatyan, A. Peikrishvili, G. Mamniashvili, B. Godibadze, E. Sh. Chagelishvili, D. R. Lesuer, M. Gutierrez

“…Manufacturing W-Cu composite nanopowders was performed via joint reduction of CuO and WO3 oxides with various ratios (W:Cu = 2:1, 1:1, 1:3, 1:13.5) using…”
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Molten salt-assisted combustion synthesis and characterization of MoSi2 and MoSi2-Si3N4 composite powders by MANUKYAN, Kh. V, AYDINYAN, S. V, KIRAKOSYAN, Kh. G, KHARATYAN, S. L, BLUGAN, G, MÜLLER, U, KUEBLER, J

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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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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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