导电悬臂梁,conductive cantilever beam
1)conductive cantilever beam导电悬臂梁
1.Symplectic solution of aconductive cantilever beam bending in the electromagnetic field导电悬臂梁磁弹性弯曲的辛解答
2)piezoelectric cantilever压电悬臂梁
1.Modeling and simulation ofpiezoelectric cantilever generators;压电悬臂梁发电装置的建模与仿真分析
2.Apiezoelectric cantilever microphone based on silicon was described,which received acoustic pressure with a piezoelectric multimorph cantilever based on silicon.设计了一种硅基PZT压电悬臂梁式微麦克风。
3.The effect of electrode layer on the dynamic performance of micropiezoelectric cantilever were investigated analytically.采用解析方法就电极层对压电微悬臂梁动态性能的影响进行了研究,并得出结论:当弹性层、压电层与电极层的厚度比值较大时,可忽略电极层对压电悬臂梁横向位移及谐振频率的影响。
英文短句/例句
1.Bending behaviors of functionally gradient piezoelectric curved cantilever was studied.研究了弯曲型梯度功能压电悬臂梁的弯曲特性。
2.Theoretical Analysis and Simulation of Piezoelectric Cantilever for Low-frequency Vibration Energy Harvesting压电悬臂梁采收低频振动能的理论分析与仿真
3.Study of PZT Piezoelectricity Thick Film and PZT Piezoelectric Cantilever on Silicon Substrates for MEMS Application用于MEMS的PZT压电厚膜及硅基压电悬臂梁的制备研究
4.The Study of Active Vibration Control of Piezoelectric Cantilever Beam Based on the Artificial Immune Clonal Algorithm;基于人工免疫克隆算法的压电悬臂梁振动主动控制的研究
5.It is found that non-zero normal stresses exist in the gradient piezoelectric curved cantilever when the cantilever is subjected to an external voltage.研究表明,当受外加电压作用时,弯曲型梯度压电悬臂梁中存在非零的应力。
6.Furthermore, in terms of the analytical results, the piezoelectric cantilever microactuators are designed and optimized, and the optimal methods are put forward.根据此分析结果,进一步优化了压电悬臂梁型微执行器的设计,并给出了优化的方法。
7.Analytic Solution to Piezoelectric Cantilever Beamwith Concentrated Force at Free End;悬臂压电梁自由端受集中力的解析解
8.Active Vibration Control of Piezoelectric Cantilever Beam by the LQR含压电片悬臂梁的LQR振动主动控制
9.Robust Design for Cantilever-type Piezoelectric Vibration Transducer悬臂梁式压电振动换能器的稳健设计
10.Theoretical and Experimental Study on the Compound Piezoelectric Cantilever Energy Harvester复合型悬臂梁压电俘能器理论与实验研究
11.Research on Active Vibration Control of Cantilever Beam Base on Piezoelectric Self-Sensing Actuator基于压电SSA的悬臂梁振动主动控制技术研究
12.Semi-Active Vibration Control of Cantilever Beam Using Piezoelectric Element基于压电元件的悬臂梁半主动振动控制研究
13.Active Vibration Control of Piezoelectric Smart Cantilever Plate and the Optimization of PZT s Locations;压电智能悬臂板梁振动的主动控制与压电片的优化布置
14.Integrated Optimal Design of the PZT Position,Size and Control of Smart Cantilever Beam压电智能悬臂梁的压电片位置、尺寸及控制融合优化设计
15.A squeeze-film damping model for flexible cantilever microbeam under the effect of DC bias voltage考虑直流偏置电压影响的弹性悬臂微梁挤压膜阻尼新模型
16.The Research of PZT"s Placement and the Active Vibration Control of Smart Cantilever Beam;智能悬臂梁压电片布置与振动主动控制技术的研究
17.The Position and Number Optimization Design of Sensor and Actuator on Piezoelectricity Intelligence Cantilever Beam;压电智能悬臂梁传感器、作动器位置与数目优化设计
18.Active vibration control of a cantilever beam using piezoelectric self-sensing actuator in time-sharing fashion基于分时复用压电自感知执行器的悬臂梁振动主动控制研究
相关短句/例句
piezoelectric cantilever压电悬臂梁
1.Modeling and simulation ofpiezoelectric cantilever generators;压电悬臂梁发电装置的建模与仿真分析
2.Apiezoelectric cantilever microphone based on silicon was described,which received acoustic pressure with a piezoelectric multimorph cantilever based on silicon.设计了一种硅基PZT压电悬臂梁式微麦克风。
3.The effect of electrode layer on the dynamic performance of micropiezoelectric cantilever were investigated analytically.采用解析方法就电极层对压电微悬臂梁动态性能的影响进行了研究,并得出结论:当弹性层、压电层与电极层的厚度比值较大时,可忽略电极层对压电悬臂梁横向位移及谐振频率的影响。
3)piezoelectric cantilever beam压电悬臂梁
1.A structure ofpiezoelectric cantilever beam with seismic mass is studied.研究了一种带质量块的压电悬臂梁结构,利用压电薄膜的正压电效应将机械能转化成电能,可以用于振动能的收集。
4)cantilever[英]["k?nt?li:v?(r)][美]["k?nt?"liv?]悬臂;悬臂梁
5)piezoelectric cantilever modeling压电悬臂梁建模
6)Cantilever-capacitance method悬臂梁-电容法
延伸阅读
导电1.让电流通过。一般金属都能导电。
