Effect of Ba0.91Ca0.09Ti0.916Sn0.084O3 on the microstructure and electrical properties of Bi0.5(Na0.925Li0.075)0.5TiO3 ceramics

(1− x )[Bi 0.5 (Na 0.925 Li 0.075 ) 0.5 ]TiO 3 – x Ba 0.91 Ca 0.09 Ti 0.916 Sn 0.084 O 3 [(1− x )BNLT– x BCTS] ceramics were prepared by the conventional sintering method in order to study the effects of BCTS content on their microstructure and electrical properties. X-ray diffraction patterns indic...

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Veröffentlicht in:	Applied physics. A, Materials science & processing Materials science & processing, 2013-05, Vol.111 (2), p.471-476
Hauptverfasser:	Chen, Tao, Zhang, Ting, Wang, Guangchang, Zhou, Jifang, Zhang, Jianwei, Liu, Yuhong
Format:	Artikel
Sprache:	eng
Schlagworte:	Ceramics Characterization and Evaluation of Materials Condensed Matter Physics Condensed matter: electronic structure, electrical, magnetic, and optical properties Dielectric loss Dielectric loss and relaxation Dielectric properties of solids and liquids Dielectric, piezoelectric, ferroelectric and antiferroelectric materials Dielectrics, piezoelectrics, and ferroelectrics and their properties Electrical properties Exact sciences and technology Ferroelectric materials Machines Manufacturing Materials science Microstructure Nanotechnology Optical and Electronic Materials Physics Physics and Astronomy Piezoelectricity Piezoelectricity and electromechanical effects Processes Rapid Communication Relaxors Surfaces and Interfaces Thin Films
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container_title	Applied physics. A, Materials science & processing
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creator	Chen, Tao Zhang, Ting Wang, Guangchang Zhou, Jifang Zhang, Jianwei Liu, Yuhong
description	(1− x )[Bi 0.5 (Na 0.925 Li 0.075 ) 0.5 ]TiO 3 – x Ba 0.91 Ca 0.09 Ti 0.916 Sn 0.084 O 3 [(1− x )BNLT– x BCTS] ceramics were prepared by the conventional sintering method in order to study the effects of BCTS content on their microstructure and electrical properties. X-ray diffraction patterns indicate that the BCTS diffuses into the BNLT lattice to form a solid solution. Their grain size decreases with increasing BCTS content. The macro–micro domain switching model of relaxor ferroelectrics was used to explain their abnormal temperature dependence of the dielectric loss. A better dielectric, ferroelectric, and piezoelectric behavior is demonstrated in the ceramic with x =0.06. (1− x )BNLT– x BCTS ceramics with x =0.06 have an optimum electrical behavior of d 33 ∼185 pC/N, k p ∼33.1 %, ε r ∼1335, tan δ ∼0.026, P r ∼26.7 μC/cm 2 , and E c ∼16.2 kV/cm. As a result, the introduction of BCTS to BNLT is an effective way to enhance piezoelectric properties.
doi_str_mv	10.1007/s00339-012-7530-1
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X-ray diffraction patterns indicate that the BCTS diffuses into the BNLT lattice to form a solid solution. Their grain size decreases with increasing BCTS content. The macro–micro domain switching model of relaxor ferroelectrics was used to explain their abnormal temperature dependence of the dielectric loss. A better dielectric, ferroelectric, and piezoelectric behavior is demonstrated in the ceramic with x =0.06. (1− x )BNLT– x BCTS ceramics with x =0.06 have an optimum electrical behavior of d 33 ∼185 pC/N, k p ∼33.1 %, ε r ∼1335, tan δ ∼0.026, P r ∼26.7 μC/cm 2 , and E c ∼16.2 kV/cm. 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A, Materials science & processing</title><addtitle>Appl. Phys. A</addtitle><description>(1− x )[Bi 0.5 (Na 0.925 Li 0.075 ) 0.5 ]TiO 3 – x Ba 0.91 Ca 0.09 Ti 0.916 Sn 0.084 O 3 [(1− x )BNLT– x BCTS] ceramics were prepared by the conventional sintering method in order to study the effects of BCTS content on their microstructure and electrical properties. X-ray diffraction patterns indicate that the BCTS diffuses into the BNLT lattice to form a solid solution. Their grain size decreases with increasing BCTS content. The macro–micro domain switching model of relaxor ferroelectrics was used to explain their abnormal temperature dependence of the dielectric loss. A better dielectric, ferroelectric, and piezoelectric behavior is demonstrated in the ceramic with x =0.06. (1− x )BNLT– x BCTS ceramics with x =0.06 have an optimum electrical behavior of d 33 ∼185 pC/N, k p ∼33.1 %, ε r ∼1335, tan δ ∼0.026, P r ∼26.7 μC/cm 2 , and E c ∼16.2 kV/cm. 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A, Materials science & processing</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Chen, Tao</au><au>Zhang, Ting</au><au>Wang, Guangchang</au><au>Zhou, Jifang</au><au>Zhang, Jianwei</au><au>Liu, Yuhong</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effect of Ba0.91Ca0.09Ti0.916Sn0.084O3 on the microstructure and electrical properties of Bi0.5(Na0.925Li0.075)0.5TiO3 ceramics</atitle><jtitle>Applied physics. A, Materials science & processing</jtitle><stitle>Appl. Phys. A</stitle><date>2013-05-01</date><risdate>2013</risdate><volume>111</volume><issue>2</issue><spage>471</spage><epage>476</epage><pages>471-476</pages><issn>0947-8396</issn><eissn>1432-0630</eissn><abstract>(1− x )[Bi 0.5 (Na 0.925 Li 0.075 ) 0.5 ]TiO 3 – x Ba 0.91 Ca 0.09 Ti 0.916 Sn 0.084 O 3 [(1− x )BNLT– x BCTS] ceramics were prepared by the conventional sintering method in order to study the effects of BCTS content on their microstructure and electrical properties. X-ray diffraction patterns indicate that the BCTS diffuses into the BNLT lattice to form a solid solution. Their grain size decreases with increasing BCTS content. The macro–micro domain switching model of relaxor ferroelectrics was used to explain their abnormal temperature dependence of the dielectric loss. A better dielectric, ferroelectric, and piezoelectric behavior is demonstrated in the ceramic with x =0.06. (1− x )BNLT– x BCTS ceramics with x =0.06 have an optimum electrical behavior of d 33 ∼185 pC/N, k p ∼33.1 %, ε r ∼1335, tan δ ∼0.026, P r ∼26.7 μC/cm 2 , and E c ∼16.2 kV/cm. As a result, the introduction of BCTS to BNLT is an effective way to enhance piezoelectric properties.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer-Verlag</pub><doi>10.1007/s00339-012-7530-1</doi><tpages>6</tpages></addata></record>
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subjects	Ceramics Characterization and Evaluation of Materials Condensed Matter Physics Condensed matter: electronic structure, electrical, magnetic, and optical properties Dielectric loss Dielectric loss and relaxation Dielectric properties of solids and liquids Dielectric, piezoelectric, ferroelectric and antiferroelectric materials Dielectrics, piezoelectrics, and ferroelectrics and their properties Electrical properties Exact sciences and technology Ferroelectric materials Machines Manufacturing Materials science Microstructure Nanotechnology Optical and Electronic Materials Physics Physics and Astronomy Piezoelectricity Piezoelectricity and electromechanical effects Processes Rapid Communication Relaxors Surfaces and Interfaces Thin Films
title	Effect of Ba0.91Ca0.09Ti0.916Sn0.084O3 on the microstructure and electrical properties of Bi0.5(Na0.925Li0.075)0.5TiO3 ceramics
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