Effect of KNbO_3 content on the crystal structure and electrical properties of(1-x)PbZr_(0.54)Ti_(0.46)O_3-xKNbO_3 piezoelectric ceramics

（1 - x）PbZr0.54Tio.4603-xKNbO3 （0 〈 x 〈 25mo1%） （abbreviated as PZT-xKN） piezoelectric ceramics were successfully fabricated by a traditional sintering technique at 1225℃ for 30 min. The influence of KNbO3 content on the crystal structure and electrical properties of the PZT-xKN piezoelectric ceramics was studied. Samples with 0 〈 x 0.20 show a pure peroskite structure, indicating that ul KNbOdiffused ito the crystal lattice of PZT to form a single solid solution in this compositional range. A second Pb3Nb4013 phase is observed in the PZT-0.25KN sample, showing that the maximum solid solubility of KNbO3 in PZT matrix ceramic is less than 25mo1%. Compared with pure PZT piezoelectric ceramics, samples containing KNbO3 have smaller crystal grains. PZT-0.15KN exhibits excellent piezoelectric properties with d33 ： 209 pC/N.

A Piezoelectric Friction-Inertial Linear Motor Based on Piezoelectric Single-Crystal Cymbal Displacement Amplification Mechanism

Piezoelectric friction-inertial motor is known for its promise for a long-range and high-resolution motion.The movement of the slider/rotor of the motor is achieved by stick-slip effect.We report a relaxor-based-ferroelectric-single-crystal cymbal actuator and a miniature piezoelectric friction-inertial linear motor(abbreviated as PFILM)fabricated with the cymbal actuator.The cymbal actuator is fabricated with a 10 mm diameter disk of 0.70Pb(Mg_(1/3)Nb_(2/3))O_3-0.30PbTiO_3 single crystal.The displacement of the cymbal actuator increases almost proportionally from 0to 23μm with driving voltage up to 500 V,and the minimal hysteresis is observed.The cymbalPFILM with 20 mm motion range works under driving voltage frequency of ca.100 Hz to ca.5kHz,the fastest speed is obtained with 3.5kHz and the no-load speed is 14mm/s and the maximum thrust force is 98 mN.Compared with a PFILM based on multilayer piezoelectric ceramic,the proposed motor has a larger stroke under DC/quasistatic input voltage in fine motion mode,but a smaller driving force in long-travel mode due to lower resonance frequency.

Micro-displacement amplifying mechanism driven by piezoelectric actuator

Piezoelectric actuator has high stiffness, high frequency and infinite control precision, but a short output displacement which is often 1/1 000 of its length. In order to meet the requirements that tools feeding should be long-travel, high-frequency and high-precision in non-circular precision turning, a new one-freedom flexure hinge structure is put forward to amplify the output displacement of piezoelectric actuator. Theoretical analysis is done on the static and dynamic characteristics of the structure, differential equations are presented, and it is also verified by the finite element method. It's proved by experiments that the output displacement of the structure is 293 μm and its resonant frequency is 312 Hz.

Effect of Li content on the microstructure and properties of lead-free piezoelectric(K_(0.5)Na_(0.5))_(1-x)Li_xNbO_3 ceramics prepared by SPS

Lead-free piezoelectric （K0.5sNa0.5）1-xLixNbO3 （x = 0at%-20at%） ceramics were synthesized by spark plasma sintering （SPS） at low temperature and the effects of LiNbO3 addition on its crystal structure and properties were also studied. When the Li content was less than 6at%, a single proveskite phase with the similar structure of （K0.5Na0.5）NbO3 was formed; and a secondary phase with K3Li2Nb5O15 structure was observed in the 6at% 〈 x 〈 20at% compositional range. Furthermore, LiNbO3 existed as the third phase when the Li content was higher than 8at%. The grain sizes increased from 200-500 nm to 5-8 μm when the K3Li2Nb5O15 and LiNbO3 like phases were formed. With increasing Li content, the relative density of the ceramics first decreased from 97% to 93% and then kept constant. The piezoelectric coefficient d33, dielectric constant, and planner electromechanical coupling factor exhibited a decreasing tendency with increasing Li content because of the decrease in density and the formation of the secondary phase such as K3Li2Nb5O15 and LiNbO3. The formation of dense microstructure with a single phase is necessary in improving the properties of the （K0.5Na0.5）1-xLixNbO3 ceramics.

Structure and Electrical Properties of(Na_(0.5)Bi_(0.5))_(0.94)Ba_(0.06)TiO_3 Ceramic with 0.5 wt% of MnO

The structure and electrical properties of （Na0.5Bi0.5）0.94Ba0.06TiO3 ceramic doped with 0.5 wt% of MnO were investigated in comparison with those of （Na0.5Bi0.5）0.94Ba0.06TiO3 ceramic. It was ascertained that the MnO addition did not cause remarkable change in crystal structure and microstructure. The MnO addition mainly displayed a hard effect on the electrical properties, an increase of coercive field （E） and mechanical quality factor （Qm） together with a decrease of dielectric constant （εr） and piezoelectric constant （d33）. An enhancement of electromechanical coupling factor （kp） with the MnO addition was obtained too. An essential relation between the piezoelectric properties and ferroelectric nature of the ceramics was detected. It was found that the piezoelectric properties of the ceramics highly depended on the corporative contribution of remanent polarization （Pt） and coercive field.

基于位移放大的压电致动器设计与仿真

压电叠堆致动器广泛用于驱动智能变形装置,由于压电叠堆输出位移小,需要放大结构增大位移输出。设计了一种椭圆形位移放大结构,分析了椭圆长轴、壳体厚度、X方向位移和压电叠堆宽度等结构参数对Y方向的位移输出、应力强度和放大倍数等性能的影响规律,优化了结构参数,并制作了样品。测试数据表明,位移放大结构实现了5.3倍以上的位移放大;分析了放大结构在高频电压驱动下的瞬态响应,模拟了驱动信号频率对位移输出的影响,结果表明,在周期0.01 s的交变电压驱动下,结构的位移输出未出现失真。

W/Cr共掺杂对CaBi_(2)Nb_(2)O_(9)陶瓷晶体结构及电学性能的影响

铌酸铋钙(CaBi_(2)Nb_(2)O_(9),CBN)是一种典型的铋层状结构压电材料,具有高居里温度(约943℃)、高稳定性等特点,是600℃以上高温压电振动传感器的重要候选功能元件,但其压电系数和高温电阻率较低,严重制约了CBN在高温压电振动传感器领域的实际应用。为了提高CBN压电陶瓷的高温稳定性,采用固相法制备了W/Cr共掺杂的CaBi_(2)Nb_(1.975)W_(0.025)O_(9)-x%Cr_(2)O_(3)(CBNW-xCr,0<x≤0.2)单相铋层状结构压电陶瓷,研究了W/Cr元素共掺杂对晶体结构和电学性能的影响。结果表明:W/Cr元素共掺杂使压电陶瓷晶体结构由正交晶系向四方晶系转变,晶体结构畸变程度增强,并且压电性能和绝缘性能显著提高。当x=0.1时,CBNW-0.1Cr压电陶瓷的居里温度为931℃,压电系数为15.6 pC/N,600℃时电阻率达到106Ω·cm量级,介电损耗仅为0.029,该体系在高温压电领域有重要的潜在应用前景。

压电陶瓷微位移驱动器建模与控制

考虑利用白光干涉仪进行表面三维形貌测量时压电陶瓷(PZT)的蠕变效应对微位移驱动器位移精度的影响,提出了一种沿参考镜光轴方向提高该驱动器位移精度的方法。系统研究了该驱动器的位移检测回路、PID闭环控制以及蠕变补偿控制;利用光电位置传感器和光学杠杆调节位移检测回路,将压电陶瓷驱动器微位移反馈至控制系统,建立PID闭环控制。充分考虑了PZT蠕变特性对测量过程的影响,建立了"电压蠕变"补偿模型,实现了基于PID闭环控制与蠕变补偿控制相结合的复合控制方法。利用XL-80激光干涉仪测量压电陶瓷驱动器在PID闭环控制和复合控制二种情况下的微位移,实验结果显示前者位移误差为0.007μm,后者位移误差为0.005μm。结果表明该方法可有效克服压电陶瓷迟滞非线性和蠕变对测量结果的影响,满足表面三维形貌测量的高精度要求。

压电陶瓷等离子喷涂技术与应用基础研究

介绍压电陶瓷材料等离子喷涂工艺方法的概念及用此法制作压电陶瓷元件的方法。用这种技术制作的压电元件具有体积小、无需粘贴等特点，尤其适合于大面积压电传感元件和压电作动元件阵列的制作。压电陶瓷涂层制作常见缺陷如孔隙率高、成分易挥发、结合强度较低等可通过优化工艺参数来解决。

铌酸钠钾基无铅压电陶瓷的相结构与压电性能

采用传统固相反应合成法制备了结构致密的(1-x)Na0.5K0.5NbO3-xLiTaO3(KNNT)无铅压电陶瓷,研究了LiTaO3对Na0.5K0.5NbO3材料晶体结构和压电性能的影响。结果表明,随着LiTaO3含量的增加,材料的钙钛矿结构由斜方相向四方相转变,KNNT材料的准同型相界位于0.04 mol<x<0.08 mol处;随着LiTaO3含量的增加,将使四方铁电相→斜方铁电相的相变温度TT-C向低温方向移动并使居里温度TC向高温方向移动,而且材料的压电常数d33、介电常数ε和机电耦合系数kp均随之先增大后减小,在x=0.06 mol处达到最大值;组成为0.94Na0.5K0.5NbO3-0.06LiTaO3的陶瓷具有优异的压电性能,陶瓷的相对密度达97.8%,居里温度为480℃,d33达134 pC/N,kp达0.33,ε为897,Qm为100。

驱动器用陶瓷材料发展与展望

叙述了适用于制造驱动器的几种陶瓷材料，即压电陶瓷、电致伸缩陶瓷、相转变（反铁电-铁电）陶瓷和弛豫基铁电单晶材料，并对它们各自的优缺点及特性作了简单的评述，同时展望了它们在驱动器领域的应用前景。

基于压电陶瓷微位移执行器的精密定位技术研究

阐述了压电陶瓷微位移执行器的驱动原理,介绍了执行器的性能与应用情况;利用自行设计的输出特性测试系统,对WTYD0808042压电陶瓷微位移执行器进行了相关实验研究,分析了执行器的非线性和迟滞特性;采用Duhem算子建立了压电执行器的迟滞模型,利用建立的Duhem模型作为PID反馈控制的前馈环节进行闭环精密定位控制的研究。实验结果表明:该模型能够有效降低非线性和迟滞特性对压电执行器位移输出精度的影响,提高执行器的动态响应特性。

一种高分辨力、大行程微驱动压电马达

样机采用叠片式压电驱动器作为驱动源,利用一对夹爪与丝杠之间的惯性滑移效应实现纳米级微位移驱动,而用丝杠副实现自锁。微位移测量采用高精度电感式测微仪与光学干涉仪。样机平均位移分辨力为5～15nm,驱动力60N,行程15mm。分析表明,对性能的主要影响因素是驱动脉冲参数及丝杠的爬行现象,这为LSPM的进一步优化提供了依据。

Na_(0.5)K_(0.5)NbO_3-LiTaO_3无铅压电陶瓷的研究

采用传统固相反应合成法制备（1-x）Na0．5K0．5NbO3-LiTaO3无铅压电陶瓷，研究了LiTaO3对Na0．5K0．5NbO3材料晶体结构和压电性能的影响。结果表明：随着LiTaO3含量的增加，材料逐渐由斜方相向四方相过渡。当x〈0．06时，材料为斜方相；当．x〉0．06时，材料为四方相：并发现有未知相结构的Ta2O5存在；材料在x=0．06处为准同型相界，该组分材料具有良好的压电性能：d33=134～151pC·N^-1，kp=30％～38％，Qm=153，Nd=318lHz·m。

应力对压电陶瓷驱动器位移性能的影响

在研制由钨青铜型压电陶瓷分立驱动器组装成特种圆环状压电驱动器中，发现组装后横向位移模圆环驱动器的位移量呈现异常的变化；它的位移量比分立器件的增加可达～３０％．对组成、器件制备等进行了大量实验，分析认为；分立器件在组装后处于严重的压应力中，它对逆压电效应的影响是上述结果的原因．它的主要机制是在压应力下通过９０°畴重新取向或钨青铜结构中基本组元－氧八面体的畸变使自发极化偏离于原压应力方向，一旦施加电场则造成位移量的大大增加．

分割电极片状压电致动器——(一)端部位移和电场诱导应力的理论研究

研究了悬臂梁式分割电极片状压电致动器的位移特性。沿厚度方向极化的ＰＺＴ压电陶瓷薄长片，一端固定、一端自由构成悬臂梁。其上下两表面的电极均沿长度方向分割成对称的两部分。施加电场使其中一半在ｄ３１模式作用下伸长，而与其对称的另一半缩短，则压电片沿宽度方向产生弯曲，自由端便可产生致动位移。理论分析结果表明，在适当的驱动电场（不低于１００Ｖ／ｍｍ）作用下，毫米尺寸的致动器可产生微米量级的端部致动位移。电场诱导应力远小于材料的抗张强度。该分割电极压电致动器可用于精密定位，尤其适合在高密度硬磁盘驱动器的磁头定位两级伺服系统中作第二级致动器。

压电微作动器相位特性分析与改进

误差补偿作动器相位特性等动态性能对补偿控制系统有着非常重要的影响。该文在对压电陶瓷叠堆微位移作动器电压驱动过程分析的基础后,首次给出完整的相位特性分析,分析了影响压电陶瓷微作动器相位特性的三个主要因素及它们相应引起的相位滞后量。计算结果显示出机械结构引起的相位滞后占整个压电微作动器相位滞后量的主要成分。该文分析方法和结果有助于PMDA控制系统优化设计,并使机床误差实时补偿更有效、精确和容易。

角位移增大连杆轴向预压缩驱动器静、动态特性仿真分析

为了进一步增大压电双晶片驱动器的输出角位移,基于轴向预压缩增大压电双晶片输出转角和力矩的方法,提出一种带有连杆机构的压电双晶片驱动器。对驱动器建立了端部带有扭簧的静力学数值模型,以及端部带有微小舵面的刚柔耦合拉格朗日动力学方程及有限元模型。所得的数值结果和有限元结果总体符合程度较好,静力学结果表明:带有连杆机构的轴向预压缩(PBP)驱动器较原PBP驱动器输出角位移增大了4倍以上,最大输出转角可达到26.3°,而输出转矩随之缩小。动力学结果给出了驱动器机构内部能量的传输及分配特性,以文中舵面作为驱动对象,驱动器平均输出角速度达到2 000°/s,控制带宽达到30 Hz,明显优于普通伺服舵机。该角位移增大PBP驱动器的设计和仿真研究可为以大位移、小输出力矩、高控制带宽为特征的微小型飞行器舵机的研制提供理论参考依据。

钨青铜型结构PBNN压电陶瓷电场-应变特性研究

对钨青铜结构型的压电陶瓷［Pbx（Ba．Sr）1-x］4（Na0．88Li0．12）2Nb10O30，x＝0．64（PBNN）的逆压电效应的应变（S）随电场（E）变化特性进行了研究，研究表明该材料的S-E线性好，滞后小．是一种制备随动型压电微位移器的优良材料．从X射线结构分析和S-E变化关系精细测量分析表明，该材料不存在钙钛矿结构型PZT系压电陶瓷（属赝立方铁电相）中由于，三晶轴在外电场下互换形成的畴的90°转向，仅有畴的180°转向．这是它S-E特性优良的原因．测量表明，其S-E关系在～350V／mm较高场强处斜率呈现～5％的微小突增，认为这是由于它属假正交晶系，在较强外场下轴长几乎相等的a、b轴间互换对应变的贡献所致．

微进给刀架中位移放大机构的优化设计

基于压电陶瓷驱动的刀具微进给机构是满足精密加工的重要途径,为进一步增加微进给刀架驱动位移,在微进给刀架中增加一种柔性铰链微位移放大机构,增加压电陶瓷驱动器输出位移。该文设计了4种微位移放大机构,理论计算了静态刚度,利用ANSYS软件对4种微位移放大机构进行了建模和有限元数值仿真分析,对比了不同类型的微位移放大机构的放大倍数、负载能力和应力情况等静态特性,为优化设计刀具微进给机构打下良好基础。