EFFECT OF ZrO2 PARTICLE SIZE ON MORPHOLOGY and SYNTHESIS OF NANO CaZrO3Via MOLTEN SALT METHOD

Authors

  • F. Golestani-Fard Centre of Excellence for Advanced Materials and processing, School of Metallurgy and Materials Engineering, Iran University of Science and Technology, Tehran, Iran.
  • R. Fazli Centre of Excellence for Advanced Materials and processing, School of Metallurgy and Materials Engineering, Iran University of Science and Technology, Tehran, Iran.
  • S. Zhang Department of Materials Science and Engineering, University of Sheffield, Sheffield S1 3JD, UK.
  • Y. Safaei-Naeini Centre of Excellence for Advanced Materials and processing, School of Metallurgy and Materials Engineering, Iran University of Science and Technology, Tehran, Iran.
Abstract:

Well crystallized pure calcium zirconate (CaZrO3 ) nanopowder was successfully synthesized using the molten-salt method. CaCl2 , Na 2CO3, micro-ZrO 2and nano-ZrO 2 were used as starting materials. On heating, Na2CO3 reacted with CaCl 2to form NaCl and CaCO 3. Nano CaZrO 3 was formed by reacting equimolar amounts of in situformed CaCO 3 (or CaO) and ZrO 2 in molten Na 2CO3-NaCl eutectic mixture. CaZrO 3 particle size and synthesis temparture was tailored as a function of ZrO 2particle size. Due to the usage of nano-ZrO 2 , the molten salt synthesis (MSS) temperature was decreased and possible impurity phases in the final product were suppressed. The synthesis temperature was lowered to 800°C and soaking time of the optimal synthesis condition was reduced to 3h. After washing with hot-distilled water, the n-ZrO2sample heated at 800°C for 3h, was single phase CaZrO 3with 70-90 nm in particle size, while the m-ZrO 2sample heated at 1000°C for 3h, was single phase CaZrO 3 with 250-400 nm in particle size. Based on the TEM observation and thermodynamic analysis, the synthesized CaZrO 3 grains retained the morphology of the ZrO2 nanopowders, which indicated that a template formation mechanism play a dominant role in synthesis process

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Journal title

volume 11  issue 3

pages  32- 38

publication date 2014-09

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