Effect of B2O3 on the Sintering Behavior and Phase Transition of Wollastonite Ceramics

K. S. Park, H. S. Ryu, J. H. Seo, K. S. Hong, H. Kim, J. H. Lee, D. H. Lee, B. S. Chang, C. K. Lee

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Abstract

By adding B2O3 powder into alpha wollastonite ceramics synthesized by solid-state reaction, the sintering temperature of wollastonite ceramics lowered by 300°C and temperature that exhibit maximum density decreased by about 400°C. In addition, we found that liquid-phase sintering observed in wollastonite-B2O3(WB) ceramics is due to melting of calcium borate which is confirmed by DTA measurement. Phase transition between alpha wollastonite and beta wollastonite is observed in WB ceramics, while no phase transition is observed in alpha wollastonite. In WB ceramics, beta wollatonite started to appear at 900°C, and above 950°C, phase transition from alpha phase to beta phase took place and only alpha wollastonite remained above 1100°C. Especially, the sample sintered at 950°C was composed of almost beta wollastonite in the case of W5B. In addition, we observed abnormal grain growth due to liquid phase in the sintered sample.

Original languageEnglish
Pages (from-to)151-154
Number of pages4
JournalKey Engineering Materials
Volume254-256
StatePublished - 2004
EventThe Annual Meeting of the International Society for Ceramics in Medicine - Porto, Portugal
Duration: 6 Nov 20039 Nov 2003

Keywords

  • Phase transition
  • Sintering
  • Wollastonite

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