Then the driven source of PZT is developed.
接着研制了压电陶瓷致动器(PZT)的驱动电源。
The self-darken pyroelectric ceramic has been obtained by doping in PZT.
在PZT中通过掺杂得到了本体“黑”化的PZT热释电陶瓷。
A new type technology of dynamic PZT modulation with fiber grating is proposed.
提出了一种新型PZT的动态调制光纤光栅应变力测量技术。
The structural and territorial design of PZT thin film micro-sensors is processed.
对硅基锆钛酸铅(PZT)压电薄膜微传感器进行了结构和版图设计。
CW laser output has been obtained from the other channel, which can been tuned by a PZT.
另一通道是光栅选支连续激光输出,可用压电陶瓷调节激光频率。
A new research scheme which applies PZT stack into precision rotary actuator is proposed.
提出一种新型将压电叠堆驱动元件应用到精密旋转驱动器上的研究方案。
This paper studied the properties of the PZT films modified by the introduction of some dopants.
在此基础上本文又进行了pzt铁电薄膜的掺杂性能的研究。
Above-mentioned methods and conclusion can be used for optimized design of PZT cantilever structure.
此分析方法和结论可用于锆钛酸铅悬臂梁结构的优化设计。
The La-doped PZN-PZT ceramics and their powders were fabricated using solid state sintered technology.
采用固相烧结法合成了不同镧掺杂量的PZN - PZ t压电陶瓷和粉体。
The PZT is modulated by periodicity voltage and the fiber grating fixing on the it is also modulated by PZT.
用交变电压调制固定在光纤光栅上的PZT,同时对施加在光栅上的应力进行测量。
A silicon based lead zirconate titanate (PZT) thick film technology by tape casting is studied in this paper.
研究了基于流延技术制备硅基锆钛酸铅(PZT)厚膜的工艺。
Acid electroless nickel phosphorus plating on PZT ceramic was studied with hypophosphite as a reducing agent.
以次亚磷酸钠为还原剂,在压电陶瓷表面进行酸性化学镀镍磷。
The effects of contents of PZT and poling conditions on piezoelectric properties of the composites were discussed.
分析讨论了极化工艺条件和PZT含量对水泥基压电复合材料压电性的影响。
A monolithic piezoelectric actuator based on functionally gradient PZT ceramics was prepared by powder metallurgical process.
本文采用粉末冶金法研制了PZT系独石型梯度功能压电陶瓷驱动器。
The new type of damping composites is consisted of chlorobutyl rubber, piezoelectric ceramic powder (PZT) and acetylene black.
这种新型的阻尼复合材料是由氯丁基橡胶,压电陶瓷粉体和乙炔炭黑混合而成。
Experiment results are shown with a heterodyne interferometer by using this method to measure the dynamic displacement of a PZT.
文中还给出了用此方法进行信号处理的外差干涉仪测量压电陶瓷动态位移的实验结果。
A new type of the PZT driving device to realize the planar movement by using the bimorph oscillator as the driver was presented.
采用双压电晶片振子为移动机构的驱动源,提出可以实现二维平面移动的新型压电驱动机构。
Experimental results indicated that the film on PZT had a excellent adhesive strength and a seawater corrosion resistant property.
实验结果表明:压电陶瓷表面化学镀的镀层具有优良的结合力和耐海水腐蚀性能。
The main factors that influence the quality of PZT piezoelectric ceramics include aggregation of powders, stoichiometry and aging etc.
影响PZ T压电陶瓷质量的主要因素有粉体团聚、化学计量及老化等。
The technological process of coprecipitation for preparing PZT piezoelectric ceramic powders is studied through orthogonal experiments.
采用正交实验方法研究共沉淀法制备PZT压电陶瓷粉体的工艺过程。
As to controlling system, the four-channel signals from MCU are output to DC amplifier to be amplified and then loaded to PZT platform.
系统控制方面,通过单片机系统产生四路信号,经驱动电源直流放大后加载到压电陶瓷微位移器上。
A high efficient rubber membrane valve was made, and double-chambered PZT pump with high output capability was designed and fabricated.
选取了一种高效的橡胶薄膜阀片,设计并制作了具有较高输出能力的双腔泵样机。
The experiments show that the PZT ferroelectric thin film with pe-roskite structure can be produced using reasonable process parameters.
实验表明,采用合适的工艺参数能制备出具有钙钛矿型结构的PZT铁电薄膜。
The technological process of coprecipitation for preparing PZT piezoelectric ceramic powders is studied through perpendicular experiments.
采用正交实验方法研究了共沉淀法制备PZT压电陶瓷粉体的工艺过程。
The working principle of the microparticle control technology with the ultrasonic excited by the piezoelectric ceramics (PZT) is discussed.
对压电陶瓷激发超声波对微粒控制技术的工作原理进行探讨。
The effects of corona polarization on PZT and PZT/IPN composites were studied, and the polarization parameters were determined respectively.
研究了电晕极化处理方式对PZT陶瓷和PZT/IPN复合材料电性能的影响,确定了二者的极化参数。
Through wet chemical synthesis, ultrafine PZT powder can be obtained with high-purity, uniform grain size and precise control of composition.
通过湿化学法合成PZT陶瓷微粉可实现粉料的高纯、超细、粒度均匀及化学成分的精确控制。
Calculating results show that the reduction of vibration displacement is mainly due to the structural damping variety caused by PZT actuators.
计算结果表明试验模型结构振动位移的减小主要取决于压电陶瓷驱动器所引起的结构阻尼变化。
Calculating results show that the reduction of vibration displacement is mainly due to the structural damping variety caused by PZT actuators.
计算结果表明试验模型结构振动位移的减小主要取决于压电陶瓷驱动器所引起的结构阻尼变化。
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