考虑阻尼时压电堆相对长度对压电主元杆件动力稳定性的影响
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摘要
以能量原理的稳定性理论为基准,通过基于不考虑线性阻尼的动力稳定性方程建立压电堆主元杆件稳定性方程,从而求解其主元杆件在这两种情况下的第一动力不稳定区域,同时考虑不同机电驱动力对第一动力不稳定区域的影响,结果表明,机电驱动力的增大可减小第一动力稳定失稳区域。并利用Matlab软件模拟了考虑阻尼压电堆相对长度对主元杆件第一动力不稳定区域的影响,结果表明,压电堆总长度小于等于总长的一半时,随着压电堆长度增长结构振动控制效果越为明显,从而确定一个适合实际工程的压电堆相对长度值。
Starting from the referential stability theory of energy principle,the dynamic stability equation is established on the basis of the dynamic stability equation that does not consider damping element.Then get the main element rods' first dynamical instability region in both cases,meanwhile influence of different mechnical and electrical driving force for the first dynamical instability region is considered.Results of above analysis show that the increase of mechnical and electrical driving force can make the first dynamical instability region smaller.The affects of piezoelectric stacks' relative length to the first dynamical instability region of piezoelectric pivot element bar is simulated in Matlab.The simulation results illustrate that with the increase of piezoelectric pile length the structural vibration control effect is more obvious in the condition that the piezoelectric pile length is less than or equal to half of the total length.This determines a suitable piezoelectric stack relative length in practical engineering.
Starting from the referential stability theory of energy principle,the dynamic stability equation is established on the basis of the dynamic stability equation that does not consider damping element.Then get the main element rods' first dynamical instability region in both cases,meanwhile influence of different mechnical and electrical driving force for the first dynamical instability region is considered.Results of above analysis show that the increase of mechnical and electrical driving force can make the first dynamical instability region smaller.The affects of piezoelectric stacks' relative length to the first dynamical instability region of piezoelectric pivot element bar is simulated in Matlab.The simulation results illustrate that with the increase of piezoelectric pile length the structural vibration control effect is more obvious in the condition that the piezoelectric pile length is less than or equal to half of the total length.This determines a suitable piezoelectric stack relative length in practical engineering.
引文
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[5]Ray M C,Mallik N.Active control of laminated composite beams u-sing a piezoelectric fiber reinforced composite layer[J].Smart Ma-terials and Structures,2004,13(1):146-152.
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[8]王社良,马乾瑛,朱军强.压电主动杆件在结构抗震控制中的优化设计及实验研究[J].地震工程与工程振动,2010,30(2):113-118.
[9]朱军强,马少波,王社良,等.单层网壳结构振动压电控制分析与试验研究[J].地震工程与工程振动,2011,31(4):114-119.
[10]鲍罗金,符华.弹性体系的动力稳定性[M].林砚田,等译.北京:高等教育出版社,1960.
[2]Kazuhiko Adachi,Yoshifumi Awakura,Takuzo Iwatsubo.Activecontrol effort of hybrid piezoelectric absorber for structural control[J].Applied Acoustics,2004,65(3):277-292.
[3]孙明清,李卓球,侯作富.压电材料在土木工程结构健康检测中的应用[J].混凝土,2003(3):22-24.
[4]李书进,瞿伟廉,王军武.压电材料智能控制器对框架结构地震反应的主动控制[J].地震工程与工程振动,2000,20(1):100-104.
[5]Ray M C,Mallik N.Active control of laminated composite beams u-sing a piezoelectric fiber reinforced composite layer[J].Smart Ma-terials and Structures,2004,13(1):146-152.
[6]蒋建平,李东旭.压电复合梁高阶有限元模型与主动振动控制研究[J].动力学与控制学报,2007(2):141-146.
[7]王社良,田鹏刚,朱军强.压电材料主元杆件的基本力学性能[J].建筑科学与工程学报,2007,24(4):7-11.
[8]王社良,马乾瑛,朱军强.压电主动杆件在结构抗震控制中的优化设计及实验研究[J].地震工程与工程振动,2010,30(2):113-118.
[9]朱军强,马少波,王社良,等.单层网壳结构振动压电控制分析与试验研究[J].地震工程与工程振动,2011,31(4):114-119.
[10]鲍罗金,符华.弹性体系的动力稳定性[M].林砚田,等译.北京:高等教育出版社,1960.
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