论文部分内容阅读
Effectiveness of microwave sintering process through investigation of microstructural characteristics and electrical properties of x(0.94PbZn_ 1/3Nb_ 2/3O_3 + 0.06BaTiO_3)+(1-x)PbZr_yTi_ 1-yO_3(PBZNZT)ceramics with x=0.6 and y=0.52 was evaluated.The relative density of 95% was achieved with sintering at 800℃ for 2 h.The small grain growth exponents indicate how easy the grain growth in these materials sintered using microwave radiation.Grain growth rate increases abruptly and is higher than that of conventional sintering at a temperature higher than 1050℃.This is attributed to the lower activation energy and higher grain boundary mobility.The activation energy required for the grain growth is found to be 132kJ/mol.Higher remanent polarization(Pr=50.1μC/cm2)and increase in remanent polarization with sintering temperature are observed in microwave sintering process when compared to that of conventional sintering process,due to fast increase in grain growth rate and homogeneity in the specimen.The results indicate lower sintering energy and reduction of PbO pollution in the working environment by microwave sintering process.
Effectiveness of microwave sintering process through investigation of microstructural characteristics and electrical properties of x (0.94PbZn_1 / 3Nb_ 2 / 3O_3 + 0.06BaTiO_3) + (1-x) PbZr_yTi_1-yO_3 (PBZNZT) ceramics with x = 0.6 and y = 0.52 was evaluated. The relative density of 95% was achieved with sintering at 800 ° C for 2 h. The small grain growth exponents indicate how easy the grain growth in these materials sintered using microwave radiation. Growth rate increases abruptly and is higher than that of The conventional sintering at a temperature higher than 1050 ° C. This is attributed to the lower activation energy and higher grain boundary mobility. activation energy required for the grain growth was found to be 132 kJ / mol.Higher remanent polarization (Pr = 50.1 μC / cm 2 ) and increase in remanent polarization with sintering temperature are observed in microwave sintering process when compared to that of conventional sintering process, due to fast increase in grain growth rate and homogeneity in th e specimen. The results of lower sintering energy and reduction of PbO pollution in the working environment by microwave sintering process.