Structure and electrical properties' investigation of (K 0.5Na0.5)NbO3-(Bi0.5Na 0.5)TiO3 lead-free piezoelectric ceramics

Hongliang Du; Wancheng Zhou; Fa Luo; Dongmei Zhu; Shaobo Qu; Ye Li; Zhibin Pei

doi:10.1088/0022-3727/41/8/085416

Structure and electrical properties' investigation of (K _0.5Na_0.5)NbO₃-(Bi_0.5Na _0.5)TiO₃ lead-free piezoelectric ceramics

Hongliang Du, Wancheng Zhou, Fa Luo, Dongmei Zhu, Shaobo Qu, Ye Li, Zhibin Pei

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

Lead-free piezoelectric ceramics (1 - x)(K_0.5Na _0.5)NbO₃-x(Bi_0.5Na_0.5)TiO ₃ [(1 - x)KNN-xBNT] were synthesized by conventional solid-state sintering. The phase structure and electrical properties of (1 - x)KNN-xBNT ceramics are investigated. The polymorphic phase transition (from the orthorhombic to the tetragonal phase) (PPT) plays a very important role in (1 -x)KNN-xBNT ceramics. A PPT at room temperature in (1 - x)KNN-xBNT ceramics is identified for 0.02 < x ≤ 0.03. The (1 - x)KNN-xBNT (x = 0.025) ceramics show optimum electrical properties (d₃₃ ≃ 256 pC N^-1, d₃₁ = 85 pC N^-1, k_p = 0.48, k_t = 0.52 and T_C = 373 °C). The related mechanisms for high piezoelectric properties in (1 - x)KNN-xBNT (x = 0.025) ceramics are also discussed. These results indicate that the (1 - x)KNN-xBNT (x = 0.025) ceramic is a promising lead-free piezoelectric candidate material.

Original language	English
Article number	085416
Journal	Journal of Physics D: Applied Physics
Volume	41
Issue number	8
DOIs	https://doi.org/10.1088/0022-3727/41/8/085416
State	Published - 21 Apr 2008

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@article{117733912fc44c069b3f03eab37bdf5e,

title = "Structure and electrical properties' investigation of (K 0.5Na0.5)NbO3-(Bi0.5Na 0.5)TiO3 lead-free piezoelectric ceramics",

abstract = "Lead-free piezoelectric ceramics (1 - x)(K0.5Na 0.5)NbO3-x(Bi0.5Na0.5)TiO 3 [(1 - x)KNN-xBNT] were synthesized by conventional solid-state sintering. The phase structure and electrical properties of (1 - x)KNN-xBNT ceramics are investigated. The polymorphic phase transition (from the orthorhombic to the tetragonal phase) (PPT) plays a very important role in (1 -x)KNN-xBNT ceramics. A PPT at room temperature in (1 - x)KNN-xBNT ceramics is identified for 0.02 < x ≤ 0.03. The (1 - x)KNN-xBNT (x = 0.025) ceramics show optimum electrical properties (d33 ≃ 256 pC N-1, d31 = 85 pC N-1, kp = 0.48, kt = 0.52 and TC = 373 °C). The related mechanisms for high piezoelectric properties in (1 - x)KNN-xBNT (x = 0.025) ceramics are also discussed. These results indicate that the (1 - x)KNN-xBNT (x = 0.025) ceramic is a promising lead-free piezoelectric candidate material.",

author = "Hongliang Du and Wancheng Zhou and Fa Luo and Dongmei Zhu and Shaobo Qu and Ye Li and Zhibin Pei",

year = "2008",

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doi = "10.1088/0022-3727/41/8/085416",

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T1 - Structure and electrical properties' investigation of (K 0.5Na0.5)NbO3-(Bi0.5Na 0.5)TiO3 lead-free piezoelectric ceramics

AU - Du, Hongliang

AU - Zhou, Wancheng

AU - Luo, Fa

AU - Zhu, Dongmei

AU - Qu, Shaobo

AU - Li, Ye

AU - Pei, Zhibin

PY - 2008/4/21

Y1 - 2008/4/21

N2 - Lead-free piezoelectric ceramics (1 - x)(K0.5Na 0.5)NbO3-x(Bi0.5Na0.5)TiO 3 [(1 - x)KNN-xBNT] were synthesized by conventional solid-state sintering. The phase structure and electrical properties of (1 - x)KNN-xBNT ceramics are investigated. The polymorphic phase transition (from the orthorhombic to the tetragonal phase) (PPT) plays a very important role in (1 -x)KNN-xBNT ceramics. A PPT at room temperature in (1 - x)KNN-xBNT ceramics is identified for 0.02 < x ≤ 0.03. The (1 - x)KNN-xBNT (x = 0.025) ceramics show optimum electrical properties (d33 ≃ 256 pC N-1, d31 = 85 pC N-1, kp = 0.48, kt = 0.52 and TC = 373 °C). The related mechanisms for high piezoelectric properties in (1 - x)KNN-xBNT (x = 0.025) ceramics are also discussed. These results indicate that the (1 - x)KNN-xBNT (x = 0.025) ceramic is a promising lead-free piezoelectric candidate material.

AB - Lead-free piezoelectric ceramics (1 - x)(K0.5Na 0.5)NbO3-x(Bi0.5Na0.5)TiO 3 [(1 - x)KNN-xBNT] were synthesized by conventional solid-state sintering. The phase structure and electrical properties of (1 - x)KNN-xBNT ceramics are investigated. The polymorphic phase transition (from the orthorhombic to the tetragonal phase) (PPT) plays a very important role in (1 -x)KNN-xBNT ceramics. A PPT at room temperature in (1 - x)KNN-xBNT ceramics is identified for 0.02 < x ≤ 0.03. The (1 - x)KNN-xBNT (x = 0.025) ceramics show optimum electrical properties (d33 ≃ 256 pC N-1, d31 = 85 pC N-1, kp = 0.48, kt = 0.52 and TC = 373 °C). The related mechanisms for high piezoelectric properties in (1 - x)KNN-xBNT (x = 0.025) ceramics are also discussed. These results indicate that the (1 - x)KNN-xBNT (x = 0.025) ceramic is a promising lead-free piezoelectric candidate material.

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Structure and electrical properties' investigation of (K _0.5Na_0.5)NbO₃-(Bi_0.5Na _0.5)TiO₃ lead-free piezoelectric ceramics

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