“双驱动足”回转式压电马达初步研究

提出一种“双驱动足”回转式压电马达，分析了其工作原理，并根据工作原理，设计，研制了样机，进行了初步的试验研究，证明工作原理基本正确，为今后进一步研究提供了参考依据。     

Cymbal型压电换能器电压-位移特性建模与分析

通过对Cymbal换能器压电陶瓷片受力分析,给出了其压电方程的边界受力约束条件,建立了Gymbal型压电换能器电压-位移函数关系模型.模型计算结果与试验结果吻合.并利用该模型,给出了Cymbal换能器几个关键参数对等效压电常数de33的影响规律.这些结论对Cymbal换能器的敏感参数误差控制、大批量生产工艺优化、性能指...     

双悬臂式压电振动给料器设计与性能分析

现代化的自动装配对物料输送的平稳性和精确性提出了更高的要求,为了满足工业需求,设计了一种采用矩形压电振子作为激振源、以垂直驱动方式工作的压电振动给料器。通过对双悬臂式压电振动给料器进行简化,并建立其动力学模型,推导出固有频率以及装置振幅的表达式,分析了影响固有频率和振幅的因素。利用ANSYS Workbench软件对装置进行动力学分析,系统固有频率为118.85 Hz,并对装置进行了谐响应分析。结果表明,当驱动电压为200 V时,系统驱动频率为116.00～122.00 Hz,双悬臂式压电振动给料器具备输送物料能力,在最靠近共振点处（118.00 Hz）振动幅值最大,输送效率最高,满足工业生产的使用要求。     

3D Printing of Polyvinylidene Fluoride Based Piezoelectric Nanocomposites: An Overview

Recently, polyvinylidene fluoride (PVDF) based nanocomposites have attracted much attention for next-generation wearable applications such as promising piezoelectric energy harvesters (nanogenerators), energy storage devices, sensing devices, and biomedical devices due to their high flexibility, and high dielectric and piezoelectric properties. 3D printing technology, PVDF based piezoelectric nanocomposites, the studies based on 3D printing of PVDF based piezoelectric nanocomposites by inkjet printing and fused deposition modeling, and enhancements of energy harvesting and storage performance of nanocomposites by structural design are comprehensively overviewed here. An insight is provided into 3D printing techniques, structure and properties of PVDF based polymers, various nanofillers and production methods for nanocomposites, solutions to enhance β phase (crystallinity) of PVDF, and improvements of nanocomposites’ breakdown strength, discharged energy density, and piezoelectric power output by mentoring structural design.     

Synergistic Effect of PVDF-Coated PCL-TCP Scaffolds and Pulsed Electromagnetic Field on Osteogenesis

Bone exhibits piezoelectric properties. Thus, electrical stimulations such as pulsed electromagnetic fields (PEMFs) and stimuli-responsive piezoelectric properties of scaffolds have been investigated separately to evaluate their efficacy in supporting osteogenesis. However, current understanding of cells responding under the combined influence of PEMF and piezoelectric properties in scaffolds is still lacking. Therefore, in this study, we fabricated piezoelectric scaffolds by functionalization of polycaprolactone-tricalcium phosphate (PCL-TCP) films with a polyvinylidene fluoride (PVDF) coating that is self-polarized by a modified breath-figure technique. The osteoinductive properties of these PVDF-coated PCL-TCP films on MC3T3-E1 cells were studied under the stimulation of PEMF. Piezoelectric and ferroelectric characterization demonstrated that scaffolds with piezoelectric coefficient d₃₃ = −1.2 pC/N were obtained at a powder dissolution temperature of 100 °C and coating relative humidity (RH) of 56%. DNA quantification showed that cell proliferation was significantly enhanced by PEMF as low as 0.6 mT and 50 Hz. Hydroxyapatite staining showed that cell mineralization was significantly enhanced by incorporation of PVDF coating. Gene expression study showed that the combination of PEMF and PVDF coating promoted late osteogenic gene expression marker most significantly. Collectively, our results suggest that the synergistic effects of PEMF and piezoelectric scaffolds on osteogenesis provide a promising alternative strategy for electrically augmented osteoinduction. The piezoelectric response of PVDF by PEMF, which could provide mechanical strain, is particularly interesting as it could deliver local mechanical stimulation to osteogenic cells using PEMF.     

掺杂对PZT压电陶瓷的影响及研究进展

在介绍掺杂PZT压电陶瓷材料制备的基础上,总结出生产掺杂PZT材料的最佳掺杂条件,以及配方对压电陶瓷性能的影响,只要工艺合适,性能完全能再提高,对压电陶瓷材料的发展趋势进行了展望。     

Effects of CeO2 doping on the structure and properties of PSN-PZN-PMS-PZT piezoelectric ceramics

Quinary system piezoelectric ceramics PSN-PZN-PMS-PZT were prepared by using a two-step method. The effects of CeO2 doping on piezoelectric and dielectric properties of the system were investigated at morphotropic phase boundary （MPB）. The results reveal that the relative dielectric constant ε33^T｜ε0, the Curie temperature To, the piezoelectric constant d33, the mechanical quality factor Qm, and the electromechanical coupling coefficient Kp are changed with the increase of CeO2 content. On the other hand, the effects of CeO2 doping on the dielectric properties of PSN-PZN-PMS-PZT piezoelectric ceramics at high electric field are consistent with the change at weak electric field. The values of dielectric constant and dielectric loss are enhanced with the increasing of electric field.     

纳米粉及添加剂对压电陶瓷材料性能的影响

采用高能球磨法研磨出PZT-5纳米粉料，添加外购的纳米有机添加剂，按照传统的固相工艺法制备出了压电陶瓷材料，研究分析纳米粉料和纳米有机添加剂对压电陶瓷性能的影响。通过测试分析可以看出，纳米压电粉料与纳米有机添加剂的综合作用，降低了材料的烧结温度、相对介电常数εr,Qm值和以d31，提高了压电应变常数d333，从而压电电压常数g33、gh、dh成倍提高，这些对制作宽带、高灵敏度的换能器是很有好处的。     

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 传感器采用的28 μm厚的4层结构PVDF压电薄膜制成，传感器表面电极形状的制作采用剪切加丙酮腐蚀的方法，保证了传感器有一定的非金属化的边缘。对于电极的引出是将传感器上、下电极面引脚错开，引出电极比较容易做到穿透式，采用压接端子压接和空心小铆钉铆接两种方法。     

（反应）模晶生长法制备NBT-6BT织构陶瓷的研究

以熔盐法合成的片状SrTiO3，Bi4Ti3O12为种晶，分别采用模晶生长法（TGG）和反应模晶生长发（RTGG）制备了具有〈001〉取向的0．94（Na1/2Bi1／2）TiO3-0．06BaTiO3（NBT-6BT）织构陶瓷。研究了不同种晶选择、流延和热处理工艺参数对陶瓷织构化程度、显微结构和压电性能的影响。结果表明，RTGG制备的织构陶瓷比TGG的在结构和性能等方面都具有优势，且用该方法以Bi4Ti3O12为种晶，制备出了高密度（f≥96％）、高织构度（F≈95％）、高性能（d33≈241pC／N）的NBT-6BT无铅压电陶瓷。