Grain growth in the MnO added ZnO-6 wt% Sb2O3 ceramic system

1997 
Abstract The effect of MnO additions between 0 and 5 wt% to the grain growth of the ZnO-6 wt% Sb 2 O 3 system was studied between 1000 and 1300 °C in air. The kinetic grain growth study carried out using the expression G n −G o n = K o .t. exp (− Q RT ) gave the grain exponent ( n ) value as 6 and the apparent activation energy ( Q ) for the grain growth process as 630 kJ/mol. The MnO addition systematically lowered the grain growth exponent value from 6 to 4. The apparent activation energy for the grain growth process with MnO additions up to 2 wt% was found to be 560 kJ/mol, which was lowered to 470 kJ/mol in MnO additions over 2 wt%. It was also observed that the twinned ZnO grains found in the Sb 2 O 3 added system disappeared with the MnO additions. This indicated that the formation of fine spinel particles on the ZnO grains is the main source of the grain growth inhibition process in Sb 2 O 3 added ZnO systems.
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