Piezoelectric, ferroelectric and mechanical properties of lead zirconate titanate/zinc oxide nanowhisker ceramics

Da Wei Wang; Mao Sheng Cao; Quan Liang Zhao; Hong Bo Li; De Qing Zhang; Jie Yuan; Hai Bo Lin

doi:10.1007/s10854-011-0319-8

Piezoelectric, ferroelectric and mechanical properties of lead zirconate titanate/zinc oxide nanowhisker ceramics

Da Wei Wang, Mao Sheng Cao^*, Quan Liang Zhao, Hong Bo Li, De Qing Zhang, Jie Yuan, Hai Bo Lin

^*Corresponding author for this work

School of Material Science and Engineering

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

16 Citations (Scopus)

Abstract

New lead zirconate titanate/zinc oxide nanowhisker (PZT/ZnO _w) ceramics were fabricated by a conventional solid state processing and their structures, piezoelectric, ferroelectric and mechanical properties were studied. Both the PZT perovskite and ZnO phases can be observed from the X-ray diffraction patterns. The grain size of ceramics is reduced due to the ZnO _w addition. The incorporation of ZnO _w into the PZT ceramics improves the strength and toughness, while deteriorates the piezoelectric and ferroelectric properties. For the PZT/ZnO _w ceramics with 1-2 wt% ZnO _w, the mechanical properties become optimum, meanwhile maintain good piezoelectric and ferroelectric properties: σ _c = 376-484 MPa, σ _f = 115-121 MPa, K _IC = 1.41-1.54 MPa m ^1/2, d ₃₃ = 442-490 p ^C/N, k _p = 0.54-0.55, ε _r = 3,322-3,980, Q _m = 99-101, tanδ = 1.6%-1.7%, P _r = 21.5-26.9 μC/ cm ² and E _c = 8.1-8.6 kV/cm.

Original language	English
Pages (from-to)	1393-1399
Number of pages	7
Journal	Journal of Materials Science: Materials in Electronics
Volume	22
Issue number	9
DOIs	https://doi.org/10.1007/s10854-011-0319-8
Publication status	Published - Sept 2011

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title = "Piezoelectric, ferroelectric and mechanical properties of lead zirconate titanate/zinc oxide nanowhisker ceramics",

abstract = "New lead zirconate titanate/zinc oxide nanowhisker (PZT/ZnO w) ceramics were fabricated by a conventional solid state processing and their structures, piezoelectric, ferroelectric and mechanical properties were studied. Both the PZT perovskite and ZnO phases can be observed from the X-ray diffraction patterns. The grain size of ceramics is reduced due to the ZnO w addition. The incorporation of ZnO w into the PZT ceramics improves the strength and toughness, while deteriorates the piezoelectric and ferroelectric properties. For the PZT/ZnO w ceramics with 1-2 wt% ZnO w, the mechanical properties become optimum, meanwhile maintain good piezoelectric and ferroelectric properties: σ c = 376-484 MPa, σ f = 115-121 MPa, K IC = 1.41-1.54 MPa m 1/2, d 33 = 442-490 p C/N, k p = 0.54-0.55, ε r = 3,322-3,980, Q m = 99-101, tanδ = 1.6%-1.7%, P r = 21.5-26.9 μC/ cm 2 and E c = 8.1-8.6 kV/cm.",

author = "Wang, {Da Wei} and Cao, {Mao Sheng} and Zhao, {Quan Liang} and Li, {Hong Bo} and Zhang, {De Qing} and Jie Yuan and Lin, {Hai Bo}",

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AU - Wang, Da Wei

AU - Cao, Mao Sheng

AU - Zhao, Quan Liang

AU - Li, Hong Bo

AU - Zhang, De Qing

AU - Yuan, Jie

AU - Lin, Hai Bo

PY - 2011/9

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N2 - New lead zirconate titanate/zinc oxide nanowhisker (PZT/ZnO w) ceramics were fabricated by a conventional solid state processing and their structures, piezoelectric, ferroelectric and mechanical properties were studied. Both the PZT perovskite and ZnO phases can be observed from the X-ray diffraction patterns. The grain size of ceramics is reduced due to the ZnO w addition. The incorporation of ZnO w into the PZT ceramics improves the strength and toughness, while deteriorates the piezoelectric and ferroelectric properties. For the PZT/ZnO w ceramics with 1-2 wt% ZnO w, the mechanical properties become optimum, meanwhile maintain good piezoelectric and ferroelectric properties: σ c = 376-484 MPa, σ f = 115-121 MPa, K IC = 1.41-1.54 MPa m 1/2, d 33 = 442-490 p C/N, k p = 0.54-0.55, ε r = 3,322-3,980, Q m = 99-101, tanδ = 1.6%-1.7%, P r = 21.5-26.9 μC/ cm 2 and E c = 8.1-8.6 kV/cm.

AB - New lead zirconate titanate/zinc oxide nanowhisker (PZT/ZnO w) ceramics were fabricated by a conventional solid state processing and their structures, piezoelectric, ferroelectric and mechanical properties were studied. Both the PZT perovskite and ZnO phases can be observed from the X-ray diffraction patterns. The grain size of ceramics is reduced due to the ZnO w addition. The incorporation of ZnO w into the PZT ceramics improves the strength and toughness, while deteriorates the piezoelectric and ferroelectric properties. For the PZT/ZnO w ceramics with 1-2 wt% ZnO w, the mechanical properties become optimum, meanwhile maintain good piezoelectric and ferroelectric properties: σ c = 376-484 MPa, σ f = 115-121 MPa, K IC = 1.41-1.54 MPa m 1/2, d 33 = 442-490 p C/N, k p = 0.54-0.55, ε r = 3,322-3,980, Q m = 99-101, tanδ = 1.6%-1.7%, P r = 21.5-26.9 μC/ cm 2 and E c = 8.1-8.6 kV/cm.

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Piezoelectric, ferroelectric and mechanical properties of lead zirconate titanate/zinc oxide nanowhisker ceramics

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