This research demonstrates that BaTiO3 ceramics exhibit increased grain boundary mobility (M-b) triggered by an inter-granular glass film (IGF) as previously demonstrated in polycrystalline Al2O3 ceramics conversion to single-crystal sapphire upon annealing at high temperatures. These results suggest that secondary abnormal grain growth (SAGG) during sintering of BaTiO3 ceramics at 1365 degrees C, a temperature above the eutectic points in the BaTiO3-SiO2 and BaTiO3-TiO2 systems, is another example of faster M-b caused by IGF. Higher M-b magnified through an interface glass film of several nanometers thickness facilitates a faster grain growth rate that produces exceedingly large grains of similar to 2.4 mm in size. The growth mechanism involving twin-plane re-entrant (TPRE) corners may not be the only route responsible for SAGG in BaTiO3, particularly when sintered at above eutectic temperatures. How this abnormal grain growth occurs through mechanisms involving liquid-phase-enhanced M-b and the {111} twins as a chemically induced growth fault is discussed.

• 出版日期2014-1
• 单位中山大学