Microstructure, Electrical Properties of Mn-doped Sr2-xCaxNaNb5O15 (x=0.05-0.35) Lead Free Ceramics

doi:10.3724/SP.J.1077.2011.00933

Abstract

Abstract: Lead-free piezoelectric ceramics Sr_2-xCa_xNaNb₅O₁₅+ywt%MnO₂ (x=0.05-0.35, y=0, 0.3, 0.5) (SCNN-M) were fabricated by conventional solid-state processes, and their microstructure, phase transformation, dielectric, piezoelectric and ferroelectric properties were investigated systematically. Our results reveal that Ca²⁺ ions have entered into the Sr₂NaNb₅O₁₅ lattices to form a solid solution and the doping of MnO₂ is effective in promoting the densification of the ceramics. With the MnO₂ doping, all the ceramics can be well sintered at a relative low temperature and exhibit a dense and pure tungsten-bronze structure. The addition of Ca²⁺ has no remarkable effect on the microstructure and MnO2 caused a significant promoted grain growth. Compared with the pure SCNN ceramics, the dielectric and piezoelectric properties of SCNN-M ceramics were greatly enhanced. At room temperature, the SCNN-M ceramics with x=0.5 and y=0.5 exhibits the optimum properties: piezoelectric coefficient d₃₃=190pC/N, mechanical quality factor Q_m=1455, planer electromechanical coupling factors K_p=13.4%, thickness electromechanical coupling factors K_t=36.5%, dielectric constant E_r=2123, loss tangent tand=0.038, remanent polarization P_r=4.76uC/cm², spontaneous polarization P_s=9.36uC/cm², coercive field E_c=12.68kV/cm, and curie temperature T_c=260℃. Therefore, the SCNN-M ceramics are a good candidate material for lead-free piezoelectric ceramics.

Key words: Mn doped, tungsten-bronze structure, SCNN-M, piezoelectric ceramics

CLC Number:

TM282

FAN Xiu-Jun, WANG Yue. Microstructure, Electrical Properties of Mn-doped Sr_2-xCa_xNaNb₅O₁₅ (x=0.05-0.35) Lead Free Ceramics[J]. Journal of Inorganic Materials, 2011, 26(9): 933-938.

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Microstructure, Electrical Properties of Mn-doped Sr_2-xCa_xNaNb₅O₁₅ (x=0.05-0.35) Lead Free Ceramics

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