This paper presents a fibered-epitaxial lead zirconate titanate (PZT) thin film with intermediate features between the monocrystalline and polycrystalline thin films for piezoelectric micromachined ultrasound transducer (pMUT). The grain boundaries confirmed by scanning electron microscopy, but it still maintained the in-plane epitaxial relationship found by X-ray diffraction analyses. The dielectric constant (εr33 = 500) was relatively high compared to those of the monocrystalline thin films, but was lower than those of conventional polycrystalline thin films near the morphotropic phase boundary composition. The fundamental characterizations were evaluated through the operation tests of the prototyped pMUT with the fibered-epitaxial thin film. As a result, its piezoelectric coefficient without poling treatment was estimated to be e31,f = −10–−11 C/m2, and thus reasonably high compared to polycrystalline thin films. An appropriate poling treatment increased e31,f and decreased εr33. In addition, this unique film was demonstrated to be mechanically tougher than the monocrystalline thin film. It has the potential ability to become a well-balanced piezoelectric film with both high signal-to-noise ratio and mechanical toughness for pMUT.
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机译:本文介绍了一种纤维外延锆锆钛酸钛酸盐(PZT)薄膜,具有用于压电微机械超声换能器(PMUT)的单晶和多晶薄膜之间的中间特征。通过扫描电子显微镜确认的晶界,但仍然保持X射线衍射分析发现的平面内外延关系。与单晶薄膜的介电常数(εr33= 500)相对较高,但低于Morphotopic相位边界组合物附近的常规多晶薄膜的介电常数(εr33= 500)。通过用纤维外延薄膜的原型Pmut的运行测试来评估基本表征。结果,其压电系数没有搅拌处理估计为E31,F = -10-11c / M 2,与多晶薄膜相比,合理高。适当的抛光处理增加E31,F和εr33降低。此外,这一独特的薄膜被证明比单晶薄膜机械地更加难以。它具有能够成为具有高信噪比和Pmut机械韧性的平衡压电膜的能力。
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