The Influence of Technological Regimes of Synthesizing a Solar Furnace on the Phase Composition of TiO2-CuO Cermets and the Optical Properties of Coatings on Their Basis

The Influence of Technological Regimes of Synthesizing a Solar Furnace on the Phase Composition of TiO2-CuO Cermets and the Optical Properties of Coatings on Their Basis

We present the results of studying the effect of technological synthesis regimes of a solar furnace using the method of a partial metal reduction of one of the oxides on the phase formation of cermet composite materials of the TiO 2 -CuO system. It has been established that the phase composition of...

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Veröffentlicht in:Technical physics 2018, Vol.63 (1), p.62-66
Hauptverfasser: Suleimanov, S. Kh, Dyskin, V. G., Dzhanklich, M. U., Dudko, O. A., Kulagina, N. A.
Format: Artikel
Sprache:eng
Schlagworte:
Absorptivity
Cermets
Classical and Continuum Physics
Coatings
Composite materials
Cooling rate
Heat treating
Melt temperature
Optical properties
Overheating
Phase composition
Physics
Physics and Astronomy
Physics of Nanostructures
Reduction (metal working)
Synthesis
Titanium dioxide
Titanium oxides
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container_end_page 66
container_issue 1
container_start_page 62
container_title Technical physics
container_volume 63
creator Suleimanov, S. Kh
Dyskin, V. G.
Dzhanklich, M. U.
Dudko, O. A.
Kulagina, N. A.
description We present the results of studying the effect of technological synthesis regimes of a solar furnace using the method of a partial metal reduction of one of the oxides on the phase formation of cermet composite materials of the TiO 2 -CuO system. It has been established that the phase composition of the synthesized cermet composite materials depends on the carbon concentration, melting temperature and cooling rate. The dependence of the spectral-optical properties of selectively absorbing coatings on the production technology and properties of synthesized composite materials has been presented. It has been found that the coatings fabricated by melting in air with overheating at a melt cooling rate of about 105–106°C/s have the highest values of the integral absorption coefficient, α s = 91.0–94.5%.
doi_str_mv 10.1134/S1063784218010243
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subjects Absorptivity
Cermets
Classical and Continuum Physics
Coatings
Composite materials
Cooling rate
Heat treating
Melt temperature
Optical properties
Overheating
Phase composition
Physics
Physics and Astronomy
Physics of Nanostructures
Reduction (metal working)
Synthesis
Titanium dioxide
Titanium oxides
title The Influence of Technological Regimes of Synthesizing a Solar Furnace on the Phase Composition of TiO2-CuO Cermets and the Optical Properties of Coatings on Their Basis
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