Abstract
In this study (1 − x) K0.48Na0.48Li0.04Nb0.96Ta0.04O3 − xSrTiO3 (0.0 ≤ x ≤ 0.10) ceramics were fabricated by sintering in microwave furnace for first time as well as in conventional furnace (either via single step or two-step procedures). Sintering behavior and piezoelectric properties of sintered samples were studied and compared. It was found that two-step sintering decreases sintering temperature effectively and enhances densification compared to single step sintering. Microstructure analysis revealed that, two-step sintering suppresses grain growth and promotes densification. On the other hand, microwave sintering enhanced densification more effectively and reduced sintering time and temperature. The maximum piezoelectric constants of ceramics were measured for those sintered in microwave furnace. Piezoelectric constant of the sample containing 1 mol% SrTiO3 which was sintered in microwave furnace was measured 310 pC N−1 while by sintering in conventional furnace via single and two-step sintering it was obtained 208 and 278 pC N−1, respectively.
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