Suzhou Electric Appliance Research Institute
期刊號(hào): CN32-1800/TM| ISSN1007-3175

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壓電器件減振控制技術(shù)的發(fā)展和研究現(xiàn)狀概述

來源:電工電氣發(fā)布時(shí)間:2017-09-21 14:21 瀏覽次數(shù):7
壓電器件減振控制技術(shù)的發(fā)展和研究現(xiàn)狀概述
 
曹淑瑛,韓恭萬,孫帥帥,王雪源,劉璐
(河北工業(yè)大學(xué) 電磁場(chǎng)與電器可靠性省部共建重點(diǎn)實(shí)驗(yàn)室,天津 300130)
 
    摘 要:作為一種新興的智能材料,壓電材料在振動(dòng)控制領(lǐng)域的應(yīng)用越來越廣。歸納了壓電材料用于減振控制的主動(dòng)控制、半主動(dòng)控制、被動(dòng)控制及混合振動(dòng)控制等四種方法原理、優(yōu)缺點(diǎn)及國內(nèi)外主要研究成果;并介紹了針對(duì)各方法的不足所提出的擴(kuò)展研究,如自感知主動(dòng)控制、基于壓電分流阻尼的聲子晶體技術(shù)以及基于開關(guān)半主動(dòng)控制的自供電技術(shù)等,借此可為磁致伸縮材料等其他智能材料在減振控制方面提供借鑒和新的設(shè)計(jì)思路。
    關(guān)鍵詞:振動(dòng)控制;自感知;聲子晶體;自供電
    中圖分類號(hào):O482.41;TM571     文獻(xiàn)標(biāo)識(shí)碼:A     文章編號(hào):1007-3175(2017)09-0001-05
 
Overview of Development and Research Status of Vibration Reduction Control for Piezoelectric Devices
 
CAO Shu-ying, HAN Gong-wan, SUN Shuai-shuai, WANG Xue-yuan, LIU Lu
(Province-Ministry Joint Key Laboratory of Electromagnetic Field and Electrical Apparatus Reliability, Hebei University of Technology, Tianjin 300130, China)
 
    Abstract: As a new kind of intelligent material, the piezoelectric material has attracted more and more attention in the field of vibration control. This paper summarized the vibration damping control principle of piezoelectric materials used for the active control, the semi-active control, the passive control and the hybrid control etc methods, the relative merits and the main research results at home and abroad. Introduction was made to the extending study aiming at the deficiency of various methods, such as the self sensing active control, the photonic crystal technology of piezoelectric shunt damping and the self powered technology based on the switch semi-active control, which could provide references and new design ideas for other intelligent materials, such as magnetostrictive materials in vibration damping control.
    Key words: vibration control; self sensing; photonic crystal; self powered
 
參考文獻(xiàn)
[1] BIRS Ir,MURESAN Cr,FOLEA S,et al.Vibration suppression with fractional-order PIλDμ controller[C]//IEEE International Conference on Automation,2016:1-6.
[2] ZHANG J, HE L, WANG E, et al.A LQR controller design for active vibration control of flexible structures[C]//IEEE Pacific-Asia Workshop on Paciia,2008,1:127-132.
[3] MOHAMMADI H, HARIS S M.Optimizing vibration control in a cantilever beam with piezoel-ectric patches[C]//International Coference on Modelling,2015.
[4] OMIDI E, MAHMOODI N.Hybrid positive feedback control for active vibration attenuation of flexible structures[J].IEEE/ASME Transactions on Mechatronics,2014,20(4):19-21.
[5] LI Zhijun, ADELI Hojjat.New discrete-time robust H2/H algorithm for vibration control of smart structures using linear matrix inequalities[J].Engineering Applications of Artificial Intelligence,2016,55:47-57.
[6] ZHA NG J, CA O L, YUA N W, et al.A ctive vibration control for smart structure base on the fuzzy logic[C]//International Conference on A dvanced Computer Control,2009,3:901-905.
[7] KHORSHIDI K, REZAEI E, GHADIMI A A, PAGOLI M.Active vibration control of circular plates coupled with piezoelectric layers excited by plane sound wave[J].Applied Mathematical Modelling,2015,39(3-4):1217-1228.
[8] WANG Chaoxin, XIE Xiling, CHEN Yanhao, et al. Investigation on active vibration isolation of a stewart platform with piezoelectric actuators[J].Journal of Sound and Vibration,2016,383:1-19.
[9] DOSCH J J, INMAN D J, GARCIA E.A self-sensing piezoelectric actuator for collocated control[J].Journal of Intelligent Material Systems and Structures,1992,3(1):166-185.
[10] JONES L D, GARCIA E.Novel approach to self-sensing actuation[C]//Bellingham SPIE,1997:305-314.
[11] 王波,殷學(xué)剛,黃尚廉.壓電自感知懸臂梁振動(dòng)的主動(dòng)控制研究[J].固體力學(xué)學(xué)報(bào),2004,25(1):107-109.
[12] 王靜.基于壓電SSA 的懸臂梁振動(dòng)主動(dòng)控制技術(shù)研究[D].長春:吉林大學(xué),2009.
[13] FORWARD R L, THURMOND G D.Impedance-matching circuit using negative low-noise resistance:US,4180786[P].1979-12-25.
[14] 崔海濤.壓電智能懸臂梁的被動(dòng)與主動(dòng)振動(dòng)控制研究[D].西安:西北工業(yè)大學(xué),2004.
[15] SALES T P, RADE D A, SOUZA L C G D.Passive vibration controlof flexible spacecraft using shunted piezoelectric transducers[J].Aerospace Science & Technology,2013,29(1):403-412.
[16] KERBOUA M, MEGNOUNIF A, BENGUEDIAB M, et al. Vibration control beam using piezoelectric-based smart materials[J].Composite Structures,2015,123(5):430-442.
[17] SHIVASHANKAR P, KANDAGAL S B.Analytical modeling and optimal resistance estimation in vibration control of beams with resistively shunted piezoelectrics[J].International Journal of Mechanical Sciences,2016,119:310-319.
[18] 劉汝壽.基于壓電材料的被動(dòng)及半主動(dòng)振動(dòng)噪聲控制[D].南京:南京航空航天大學(xué),2010.
[19] 白青林.空間柔性結(jié)構(gòu)中壓電阻尼系統(tǒng)的優(yōu)化設(shè)計(jì)及其對(duì)振動(dòng)的被動(dòng)控制研究[D].北京:北京理工大學(xué),2015.
[20] BERARDENGO M, THOMAS O, GIRAUD-AUDINE C, MANZONI S.Improved resistive shunt by means of negative capacitance:new circuit,performances and multi-mode control[J].Smart M ater Structure,2016,25(7):075033.
[21] 沈星,桂欣俊.智能結(jié)構(gòu)的負(fù)電容壓電被動(dòng)控制[D].南京:南京航空航天大學(xué),2013.
[22] 劉瑩卜,雄洙,龐俊恒.基于壓電分支阻尼的多模態(tài)電路被動(dòng)控制的研究和應(yīng)用[J].南京:南京理工大學(xué)學(xué)報(bào)(自然科學(xué)版),2007,31(3):300-303.
[23] TRINDADE M A, MAIO C E B.Multimodal passive vibration control of sandwich beams with shunted shear piezoelectric materials[J].Smart Materials and Structures,2008,17(5):1835-1841.
[24] LOSSOUARN B, AUCEJO M, DEü J F, CUNEFARE K A. Multimodal Damping of a Plate with a Passive Piezoelectric Network[J].Special Topics in Structural Dynamics,2016,6:111-117.
[25] 唐一璠,林書玉.LCR分流電路下壓電聲子晶體智能材料的帶隙[J].物理學(xué)報(bào),2016,65(16):100-108.
[26] 陳圣兵,韓小云,郁殿龍,溫激鴻.不同壓電分流電路對(duì)聲子晶體梁帶隙的影響[J].物理學(xué)報(bào),2010,59(1):387-392.
[27] 陳良,杜紅軍,王剛,張浩含.負(fù)電容諧振分流電路的壓電聲子晶體梁的局域共振帶隙與振動(dòng)衰減[J].振動(dòng)與沖擊,2016,35(10):38-43.
[28] GUYOMAR D, RICHARD C, PETIT L.Nonlinear System for Vibration Damping[C]//142th Meeting of Acoustical Society of America,Fort Lauderdale,USA,2001.
[29] GUYOMAR D, RICHARD C, PETIT L.Vibration Damping Using a Semi-Passive Piezoelectric Technique[C]//18th International Congress on Acoustics, Kyoto, Japan,2004.
[30] LEFEUVRE E, BADEL A, PETIT L, et al.Semi-Passive Piezoelectric Structural Damping by Synchronized Switching on Voltage Sources[J].Journal of Intelligent Material Systems & Structure,2006,17(8-9):653-660.
[31] BA DEL A , SEBA LD G, GUYOMAR D, et al. Piezoelectric Vibration Control by Synchronized Switching on Adaptive Voltage Sources: Towards Wideband Semi-Active Damping[J].Journal of the Acoustical Society of Americal, 2006,119(5):2815-2825.
[32] JI H, QIU J, BADEL A, CHEN Y, ZHU K.Semi-active vibration control of a composite beam by adaptive synchronized switching on voltage sources based on LMS algorithm[J].Journal of Intelligent Material Systems and Structures,2009,20(8):939-947.
[33] 季宏麗.飛行器結(jié)構(gòu)壓電半主動(dòng)振動(dòng)控制研究[D].南京:南京航空航天大學(xué),2012.
[34] QURESHI Ehtesham M ustafa, SHEN Xing, CHEN Jinjin.Piezoelectric shunt damping by synchronized switching on negative capacitance and adaptive voltage sources[J].International Journal of Aeronautical & Space Sciences,2014,15(4):396-411.
[35] GUYOMAR D, BADEL A.Nonlinear semi-passive multimodal vibration damping:An efcient probabilistic approach[J].Journal of Sound and Vibration,2006,294:249-268.
[36] JI H, QIU J, ZHU K, CHEN Y, BADEL A.Multi-modal vibration control using a synchronized switch based on a displacement switching threshold[J].Smart Materials and Structures,2009,18(3):035016.
[37] JI H, QIU J, ZHU K, BADEL A.Two-mode vibration control of a beam using nonlinear synchronized switching damping based on the maximizationof converted energy[J].Journal of Sound & Vibration,2010,329(14):2751-2767.
[38] 沈輝,裘進(jìn)浩,季宏麗,等.能量自給的自感知半主動(dòng)振動(dòng)控制[C]//全國壓電和聲波理論及器件技術(shù)研討會(huì)暨全國頻率控制技術(shù)年會(huì),2009.
[39] ZHOU W, ZUO L.A Self-Powered Piezoelectric Vibration Control System with Switch Precharged Inductor (SPCI) Method[J].IEEE/ASME Transactions on Mechatronics,2015,20(2):773-781.
[40] BENJEDDOU A.Advances in Hybrid Active-Passive Vibration and Noise Control via Piezoelectric and Viscoelastic Constrained Layer Treatments[J].Journal of Vibration & Control,2001,7(4):565-602.
[41] 周亞麗,張奇志,熊斌.基于分支電路的主動(dòng)-被動(dòng)混合式結(jié)構(gòu)振動(dòng)控制[J].噪聲與振動(dòng)控制,2006,26(6):5-8.
[42] 馬小陸,裘進(jìn)浩,季宏麗,等.負(fù)電容在主-被動(dòng)混合壓電振動(dòng)控制中的應(yīng)用[J].華南理工大學(xué)學(xué)報(bào)(自然科學(xué)版),2012,40(3):112-118.
[43] 李明明,黃春蓉,方勃,段磊.主被動(dòng)混合壓電網(wǎng)絡(luò)懸臂梁結(jié)構(gòu)的建模與比較[J].振動(dòng)與沖擊,2017,36(3):98-104.