Breakdown performance of potassium‐sodium niobate piezoceramics copped with oxides

Abstract: In the work, the CuO, Fe2O3, ZnO, and Al2O3 are doped in the potassium‐sodium niobate (KNN) to investigate their effects on the breakdown strength (EB) through in situ decomposition reaction on the KNN particles. The results suggest that the EB increases to some extent, thanks to the addition of oxides. Particularly, the addition of ZnO improves the EB by 34.08% compared with pure KNN ceramics. The X‐ray diffractometry, SEM, temperature‐dependent dielectric constant, complex impedance spectrum, breakdown stren… Show more

“…[1][2][3][4][5][6] The electrical properties of KNN-based ceramic could be modulated by different methods such as texture sintering, chemical doping, domain engineering and compositing. [7,8] For example, Satio et al prepared KNNbased textured ceramics using the reactive template grain growth method and achieved excellent piezoelectric properties. [9] Through domain engineering, Wang et al improved the piezoelectric coefficient of the KNN-based ceramics to 324 pC/N.…”

Robust and Tunable Ferroelectricity in Ba/Co Codoped (K_0.5Na_0.5)NbO₃ Ceramics

“…[1][2][3][4][5][6] The electrical properties of KNN-based ceramic could be modulated by different methods such as texture sintering, chemical doping, domain engineering and compositing. [7,8] For example, Satio et al prepared KNNbased textured ceramics using the reactive template grain growth method and achieved excellent piezoelectric properties. [9] Through domain engineering, Wang et al improved the piezoelectric coefficient of the KNN-based ceramics to 324 pC/N.…”

Robust and Tunable Ferroelectricity in Ba/Co Codoped (K_0.5Na_0.5)NbO₃ Ceramics

Enhanced piezoelectric properties of KNN ceramics through stress bending between KNN and ZnO particles

Effect of alumina or zirconia particles on the performance of lead-free BCZT piezoceramics