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Effect of Cu2+ ion incorporation on the phase development of ZrO2-type solid solutions during the thermal treatments (CROSBI ID 162944)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Štefanić, Goran ; Musić, Svetozar ; Ivanda, Mile Effect of Cu2+ ion incorporation on the phase development of ZrO2-type solid solutions during the thermal treatments // Journal of alloys and compounds, 491 (2010), 1-2; 536-544. doi: 10.1016/j.jallcom.2009.10.263

Podaci o odgovornosti

Štefanić, Goran ; Musić, Svetozar ; Ivanda, Mile

engleski

Effect of Cu2+ ion incorporation on the phase development of ZrO2-type solid solutions during the thermal treatments

The amorphous precursors of the ZrO2–CuO system at the ZrO2-rich side of the concentration range were prepared by co-precipitation from aqueous solutions of the corresponding salts. Thermal behavior of the amorphous precursors was monitored using X-ray powder diffraction, Raman spectroscopy, field emission scanning electron microscopy, energy dispersive X-ray spectrometry, differential scanning calorimetry and thermogravimetric analysis. The crystallization temperature of the amorphous precursors rose with an increase in the CuO content for not, vert, similar180 °C. Maximum solubility of Cu2+ ions in the ZrO2 lattice (not, vert, similar23 mol%) occurs in the metastable products obtained upon crystallization of the amorphous precursors. The results of Raman spectroscopy indicate that the incorporation of Cu2+ ions stabilize the tetragonal ZrO2 polymorph. A precise determination of lattice parameters, using both Rietveld and Le Bail refinements of the powder diffraction patterns, showed that the axial ratio c/a in the ZrO2-type solid solutions with a Cu2+ content ≥20 mol% approach 1 (formation of t″-form of tetragonal phase). The terminal solid solubility limit of Cu2+ ions in the ZrO2 lattice rapidly drops with an increase in treatment temperature (up to 1000 °C) that is followed by the formation of and increase in phases structurally closely related to tenorite and monoclinic ZrO2. Low thermal stability of the t-ZrO2-type phase was attributed to the reduction of the sintering temperature in the presence of CuO and a significant difference in size and shape of zirconia and tenorite particles, which prevent surface interactions.

Nanostructures ; Precipitation ; Phase transitions ; X-ray diffraction ; Thermal analysis ; Scanning electron microscopy

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Podaci o izdanju

491 (1-2)

2010.

536-544

objavljeno

0925-8388

10.1016/j.jallcom.2009.10.263

Povezanost rada

Fizika, Kemija

Poveznice
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