A Calibration Method on Base Excitation Amplitude of Piezoelectric Ceramic Exciter

doi:10.12068/j.issn.1005-3026.2015.06.017

Journal of Northeastern University Natural Science ›› 2015, Vol. 36 ›› Issue (6): 832-837.DOI: 10.12068/j.issn.1005-3026.2015.06.017

• Mechanical Engineering • Previous Articles Next Articles

A Calibration Method on Base Excitation Amplitude of Piezoelectric Ceramic Exciter

LI Hui， LIU Ying， WANG Yu， SUN Wei

School of Mechanical Engineering & Automation， Northeastern University， Shenyang 110819， China.

Received:2014-03-13 Revised:2014-03-13 Online:2015-06-15 Published:2015-06-11
Contact: LI Hui
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Abstract

Abstract: This paper researched how to accurately obtain base excitation amplitude of piezoelectric ceramic exciter (PCE) by some calibration methods. Firstly， a simple and reliable calibration method was proposed. The dynamics model of cantilever beam under base excitation of PCE was established to clarify calibration principle and simulate calibration process. Next， the calibration and test system of base excitation amplitude of PCE was set up. The key steps of this method were explained in details. At last， practicability and effectiveness of above calibration method were demonstrated by experiment.

Key words: base excitation, piezoelectric ceramic exciter (PCE), excitation amplitude, calibration method

CLC Number:

TB53

LI Hui， LIU Ying， WANG Yu， SUN Wei. A Calibration Method on Base Excitation Amplitude of Piezoelectric Ceramic Exciter[J]. Journal of Northeastern University Natural Science, 2015, 36(6): 832-837.

References

[1]Chu X，Ma L，Li L.A disk-pivot structure micro piezoelectric actuator using vibration mode［J］.Ultrasonics，2006，44:561-564.
[2]Damjanovic D，Newnham R.Electrostrictive and piezoelectric materials for actuator applications［J］.Journal of Intelligent Material Systems and Structures，1992，3(2):190-208.
[3]张益松，刘敏姗，伊立言.压电陶瓷片在振动试验中的应用［J］.实验力学，1987，2(2):90-94.(Zhang Yi-song，Liu Min-shan，Yi Li-yan.The application of piezoelectric ceramic flakes in vibration test ［J］.Journal of Experimental Mechanics，1987，2(2):90-94.)
[4]林立，何祚镛.有限长、多层复合圆柱壳减振特性的研究［J］.振动工程学报，1991，4(1):52-64.(Lin li，He Zuo-yong.Study of the behavior in reduction of vibration and sound of composite shells ［J］.Journal of Vibration Engineering，1991，4(1):52-64.)
[5]Ivancic F，Palazotto A.Experimental considerations for determining the damping coefficients of hard coatings［J］.Journal of Aerospace Engineering，2005，18(1):8-17.
[6]黄爱萍.轮盘振动特性试验及共振转速特性分析［J］.测控技术，2007，26(4):14-15.(Huang Ai-ping.Test of vibration character and analysis of resonance speed character for disk［J］.Measurement & Control Technology，2007，26(4):14-15.)
[7]Ewins D J.Modal testing:theory，practice and application［M］.Baldock:Research Studies Press，2000:78-99
[8]Pellicano F.Dynamic instability of a circular cylindrical shell carrying a top mass under base excitation experiments and theory［J］.International Journal of Solids and Structures，2011，48(3/4):408-427.
[9]Hou Y L，Yao J T，Zeng D X，et al.Development and calibration of a hyperstatic six-component force/torque sensor［J］.Chinese Journal of Mechanical Engineering，2009，22(4):505-513.
[10]Clough R W，Penzien J.Dynamics of structures［M］.Berkeley:Computers & Structures Inc，1995:369-370.(上接第822页)3结论NaCl质量分数从3.5%增加至10%，自腐蚀电流密度从8.223×10^-7A/cm²减小至1.129×10^-7A/cm²，在自然条件下浓度高腐蚀倾向小，而发生腐蚀后，高浓度会促进腐蚀.1) 随氢离子浓度的增加，20Cr9Ni5Co14钢的致钝电位和过钝化电位增加，而且在酸性条件下出现二次钝化现象，这表明20Cr9Ni5Co14钢具有良好的耐酸性能.2) 20Cr9Ni5Co14钢腐蚀产物电阻和线性极化电阻随着氢离子浓度增加而减小，而自腐蚀电流随着氢离子浓度增加呈线性增加，且维钝电流密度随着氢离子浓度增加而增加；20Cr9Ni5Co14钢随着氢离子浓度的增加，耐腐蚀性能下降.3) 在pH值高于3时，20Cr9Ni5Co14钢的电化学腐蚀过程主要由电化学极化控制，而当pH值达到2时，其电化学腐蚀过程转变为浓差极化控制.4) 20Cr9Ni5Co14钢腐蚀是从点蚀开始的.

A Calibration Method on Base Excitation Amplitude of Piezoelectric Ceramic Exciter

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