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Antiferroelectric-to-ferroelectric phase switching PLSnZT ceramics. I. Structure, compositional modification and electrical properties

机译：反铁电至铁电相转换PLSnZT陶瓷。一，结构，组成变化和电性能

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Electric field induced antiferroelectric-to-ferroelectric (AFE-FE) phase transformation is usually accompanied by large strain, which is attractive for actuator applications. In this study, the AFE-FE switching of lead lanthanum stannate zirconate titanate (PLSnZT) was investigated and efforts were made to find high strain compositions with low switching field and hysteresis. Compositional modifications on both the A- and B- site were attempted in order to modify material properties. The B-site modifications were completed through manipulation of the Ti:Sn and Zr:Sn ratios. On the other hand, the A-site modifications were accomplished by the addition of Ba and Sr. It was demonstrated that one can tailor material properties to fit specific application requirements through compositional modifications.

机译：电场感应的反铁电至铁电（AFE-FE）相变通常伴随着较大的应变，这对于执行器应用很有吸引力。在这项研究中，研究了锡酸镧锡钛酸钛酸铅（PLSnZT）的AFE-FE转换，并努力寻找具有低转换场和滞后现象的高应变组成。为了改变材料性能，试图在A和B位上进行成分修饰。通过控制Ti：Sn和Zr：Sn的比例完成了B位修饰。另一方面，通过添加Ba和Sr来完成A位修饰，这表明人们可以通过成分修饰来调整材料性能以适应特定的应用要求。

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《》|1996年|P.267-270|共4页
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Pan; M.-J.; Markowski; K.A.;
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中图分类无线电电子学、电信技术 ;
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4. Antiferroelectric-to-ferroelectric phase switching PLSnZT ceramics. I. Structure, compositional modification and electrical properties [C] . Pan M.-J., Markowski K.A., Institute of Electric and Electronic Engineer IEEE International Symposium on Applications of Ferroelectrics . 1996

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Antiferroelectric-to-ferroelectric phase switching PLSnZT ceramics. I. Structure, compositional modification and electrical properties

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