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Magnetization study in solid state formation of lithium-titanium ferrites synthesized by electron beam heating

The solid state formation of substituted lithium-titanium ferrites with chemical formula Li0.5(1+х)Fe2.5−1.5xTixO4 (х = 0.2; 0.4) prepared by two different methods were studied by X-ray diffraction and saturation magnetization analyzes. For the first method, lithium-titanium ferrites were prepared b...

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Published in:Materials chemistry and physics 2016-06, Vol.176, p.110-114
Main Authors: Surzhikov, Anatoly P., Lysenko, Elena N., Vlasov, Vitaly A., Malyshev, Andrey V., Vasendina, Elena A.
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container_title Materials chemistry and physics
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description The solid state formation of substituted lithium-titanium ferrites with chemical formula Li0.5(1+х)Fe2.5−1.5xTixO4 (х = 0.2; 0.4) prepared by two different methods were studied by X-ray diffraction and saturation magnetization analyzes. For the first method, lithium-titanium ferrites were prepared by conventional solid state synthesis in laboratory furnace at temperatures of 600, 700 and 750 °C and times of 0, 10, 20, 30, 60, and 120 min. For the second method, the samples were obtained by heating of reaction mixtures in high-energy (2.4 MeV) electron beam using similar time-temperature mode. XRD analysis results for all samples showed a high degree formation of lithium-titanium ferrites, obtained by high-energy electron beam heating at lower temperatures and times of synthesis compared with standard thermal heating. Such samples are characterized by the high values of saturation magnetization due to lithium-titanium ferrites formation. The observed radiation effect consists in significant decrease of the temperature and time of ferrite synthesis compared to conventional thermal heating in high-temperature furnaces.
doi_str_mv 10.1016/j.matchemphys.2016.03.037
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subjects Compaction
Electron beam heating
Ferrites
Formations
Furnaces
Heat treatment
Heating
Magnetic materials
Magnetic properties
Powder diffraction
Saturation (magnetic)
Solid state
Synthesis
title Magnetization study in solid state formation of lithium-titanium ferrites synthesized by electron beam heating
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