智能Timoshenko梁强迫振动响应的行波解

Dynamic Response Approach of Smart Timoshenko Beam with Wave Propagation

下载PDF

导出

摘要运用行波法求解智能Timoshenko梁的强迫振动响应。基于梁的振动行波法分析理论,介绍周期力和周期力矩激励下激励点处波的传播关系,推导在逆压电效应下,智能Timoshenko梁上某一点的响应函数,并以智能Timoshenko悬臂梁为例,得到梁不同位置的拾振点处的幅频和相频特性及不同受力状况下的智能梁的幅频特性,还得到了受迫振动的时域响应信号波形,最后将求解结果与有限元法求解结果做对比分析。分析结果表明,行波法分析可用于精确计算智能梁的强迫振动响应。 Wave propagation solution of dynamic characteristics of Smart Timoshenko beam is investigated.Based on wave propagation property in the Timoshenko beam,the wave propagation transmission is introduced at a point loaded with a force or a moment,and the dynamic characteristic of the smart Timoshenko beam is given at a point with the moment caused by inverse piezoelectric effect.Through an example of smart Timoshenko cantilever beam,the magnitude frequency characteristic and phase frequency characteristic at different locations are computed by Matlab code,as well as the magnitude frequency characteristic of the smart beam under different loads.The numeric computation results illustrate that the wave propagation is available in the accurate prediction of dynamic characteristics of the piezoelectric smart beams,and supply a promising approach for dynamic computation.

作者黄迪山刘玉霞朱晓锦

机构地区上海大学机电工程与自动化学院上海

出处《振动．测试与诊断》 EI CSCD 北大核心 2013年第3期382-387,523,共6页 Journal of Vibration,Measurement & Diagnosis

基金国家自然科学基金资助项目(90716027)

关键词行波法智能梁强迫振动频域响应特性时域响应特性 TIMOSHENKO梁 wave propagation,smart beam,forced vibration,frequency domain response characteristic,time domain response characteristic,Timoshenko beam

分类号 TH113 [机械工程—机械设计及理论] O325 [理学—一般力学与力学基础]

引文网络
相关文献

参考文献8

1胡超,陈涛,黄文虎.基于行波与模态的混合方法对Timoshenko梁进行振动主动控制[J].航空学报,2007,28(2):301-308. 被引量：7
2陈建军,石光军,王小兵,郜文文.随机参数压电智能梁结构的动态特性分析[J].振动．测试与诊断,2007,27(1):20-24. 被引量：7
3von Flotow A H. Traveling wave approach to the dy-namic analysis of large space structures [C]//USAF.Collection of Technical Papers, Part 2. Structures,Structural Dynamics and Materials Conference. LakeTahoe, New York: American Institute of Aeronauticsand Astronautics, 1983 : 509-519.
4Mace B R. Wave reflection and transmission in beams[J]. Journal of Sound and Vibration,1984,97 ; 237-246.
5Mei C,Mace B R. Wave reflection and transmission inTimoshenko beams and analysis of Timoshenko beamstructures[J]. ASME Journal of Vibration and Acous-tics, 2005, 127(4): 382-394.
6郭兰满,黄迪山,唐亮,刘玉霞,朱晓锦.基于行波法分析轴向受力智能梁振动特性[J].机械强度,2012,34(5):638-643. 被引量：2
7Graff K F. Wave motion in elastic solids[M]. Belfast:Oxford University Press, 1975 : 181-184.
8Mei C,Karpenko Y,Moody S, et al. Analytical ap-proach to free and forced vibrations of axially loadedcracked Timoshenko beams[J]. Journal of Sound andVibration,2006 ,291 : 1050-1059.

二级参考文献33

1周广华,杨斌,刘景全,蔡炳初.圆盘型非接触压电微马达定子的振动分析[J].振动．测试与诊断,2005,25(3):193-195. 被引量：2
2陈塑寰,马爱军,刘中生.智能结构的梁有限元模型[J].宇航学报,1997,18(2):72-77. 被引量：10
3Baz A, Ro J. Performance characteristics of active constrained layer damping[J]. Shock and Vibration,1995(2) : 33-42.
4Benjddou A, Trindade M A. New shear actuated smart structure beam finite element [J]. AIAA J,1999,37(3):1 378-1 383.
5Chen J J, Che J W, Sun H A, et al. Probabilistic dynamic analysis of truss structures[J]. Structural Engineering and Mechanics, 2002,13 (2) : 231- 239.
6Krotov V F,Kurzhanski A B.National achievements in control theory thc aerospace perspective[J].Annual Reviews in Control,2005,29(1):13-31.
7Brennan M J,Elliott S J,Pinnington R J.Strategies for the active control of flexural vibration on a beam[J].Journal of Sound and Vibration,1995,186(4):657-688.
8Song G,Qiao P Z,Binienda W K,et al.Active vibration damping of composite beam using smart sensors and actuators[J].Journal of Aerospace Engineering,2002,15 (3):97-103.
9Jha R,Bailey A,Ahmadi G.Combined active and passive control of space structure vibrations during launch[C]//11 th AIAA/ASME/AHS Adaptive Structures Conference.AIAA 2003-1724,Norfolk,Virginia,2003.
10Langote P K,Seshu P.Experimental studies on active vibration control of a beam using hybrid active/passive constrained layer damping treatments[J].Journal of Vibration and Acoustics,2005,127:515-518.

共引文献13

1陈龙,陈建军,马娟,张雪峰.随机参数结构振动控制的特征值分析[J].西安电子科技大学学报,2008,35(2):324-329. 被引量：1
2郭旺,胡超.悬臂板条结构动力学与振动控制分析[J].动力学与控制学报,2010,8(1):80-86. 被引量：2
3王敏娟,陈建军,林立广,贾爱芹,魏永祥.区间参数智能梁结构闭环系统动态特性分析[J].电子科技大学学报,2011,40(1):152-156. 被引量：5
4梁立孚.论航天器动力学中的一个理论问题[J].中国科学：物理学、力学、天文学,2011,41(1):94-101. 被引量：1
5王敏娟,陈建军.随机参数智能梁结构闭环控制系统动力响应分析[J].工程力学,2011,28(3):234-239. 被引量：1
6陈建军,马洪波,马娟,张建国,王敏娟.基于随机因子的结构分析方法[J].工程力学,2012,29(4):15-23. 被引量：16
7Tao Chen,Ligang Wang.SUPPRESSION OF BENDING WAVES IN A PERIODIC BEAM WITH TIMOSHENKO BEAM THEORY[J].Acta Mechanica Solida Sinica,2013,26(2):177-188. 被引量：3
8王敏娟,陈建军,周育保,云永琥,马洪波.区间参数相关性的智能梁结构动力特性分析[J].西安电子科技大学学报,2013,40(3):126-131. 被引量：2
9陈涛,王立刚,冯国锋.ACTIVE VIBRATION CONTROL OF TWO-BEAM STRUCTURES[J].Transactions of Nanjing University of Aeronautics and Astronautics,2013,30(2):193-201. 被引量：1
10Bo Ni,Chao Hu.Dynamics of cantilever plates and its hybrid vibration control[J].Acta Mechanica Sinica,2013,29(5):738-748.

1郭兰满,黄迪山,唐亮,朱晓锦.智能悬臂梁横向振动的行波解[J].机械强度,2011,33(6):815-821. 被引量：2
2郭兰满,黄迪山,唐亮,刘玉霞,朱晓锦.基于行波法分析轴向受力智能梁振动特性[J].机械强度,2012,34(5):638-643. 被引量：2
3陈学前,陈大林.基于强迫振动响应的结构损伤识别[J].振动．测试与诊断,2005,25(2):98-100. 被引量：8
4张英世,蒋持平.阶梯式矩形板的振动[J].应用力学学报,1998,15(4):109-115. 被引量：10
5张英世.文克尔地基上中面x方向受力的矩形薄板的振动[J].水利学报,1999,30(7):7-11. 被引量：1
6白鸿柏,黄协清.干摩擦振动系统响应计算方法研究[J].振动工程学报,1998,11(4):472-476. 被引量：16
7张英世.文克尔地基上阶梯式矩形薄板的振动[J].应用数学和力学,1999,20(5):535-544. 被引量：1
8张英世.开口薄壁杆的约束扭转振动[J].南昌航空工业学院学报,1997,11(2):46-50.
9张英世,刘宗德.轴向受载的阶梯梁的振动[J].工程力学,1999,16(3):75-80. 被引量：6
10张英世,王燮.文克尔地基上阶梯式单向矩形薄板的振动[J].应用数学和力学,1998,19(2):157-164. 被引量：10

振动．测试与诊断

2013年第3期

浏览历史

内容加载中请稍等...

智能Timoshenko梁强迫振动响应的行波解

参考文献8

二级参考文献33

共引文献13

相关作者

相关机构

相关主题

浏览历史