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Cymbal换能器的有限元分析仿真技术研究

田丰华 蔡 军 吕林夏 钱建平

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文章导航 > 水下无人系统学报  > 2007 >  15(3): 051-54
田丰华, 蔡 军, 吕林夏, 钱建平. Cymbal换能器的有限元分析仿真技术研究[J]. 水下无人系统学报, 2007, 15(3): 051-54. doi: 10.11993/j.issn.1673-1948.2007.03.013
引用本文: 田丰华, 蔡 军, 吕林夏, 钱建平. Cymbal换能器的有限元分析仿真技术研究[J]. 水下无人系统学报, 2007, 15(3): 051-54. doi: 10.11993/j.issn.1673-1948.2007.03.013
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TIAN Feng-hua, CAI Jun, LV Lin-xia, QIAN Jian-ping. Finite Element Analysis and Dynamic Simulation of Cymbal Transducer[J]. Journal of Unmanned Undersea Systems, 2007, 15(3): 051-54. doi: 10.11993/j.issn.1673-1948.2007.03.013
Citation: TIAN Feng-hua, CAI Jun, LV Lin-xia, QIAN Jian-ping. Finite Element Analysis and Dynamic Simulation of Cymbal Transducer[J]. Journal of Unmanned Undersea Systems, 2007, 15(3): 051-54. doi: 10.11993/j.issn.1673-1948.2007.03.013
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Cymbal换能器的有限元分析仿真技术研究

doi: 10.11993/j.issn.1673-1948.2007.03.013

  • 中国船舶重工集团公司第705研究所,陕西 西安 710075

详细信息
    作者简介:

    田丰华(1981-) ,男,在读硕士,研究方向为鱼雷声学装置.

  • 中图分类号: TJ630.34; TP273.4

Finite Element Analysis and Dynamic Simulation of Cymbal Transducer

  • The 705 Research Institute, China Shipbuilding Industry Corporation,Xi′an 710075, China

    摘要
  • 摘要: 采用了有限元分析方法、借助ANSYS软件设计了Cymbal换能器,给出了2种有效的流体单元划分方法;通过仿真计算,分析了金属端冒的不同尺寸对有效机电耦合系数、机械品质因素、节点位移及谐振频率的影响,从而设计出最优尺寸的Cymbal换能器,并对其进行了3阶模态振型和谐响应动力学分析, 解决了该换能器旋转对称面上存在跃变的应力和应变给设计工作带来的困难及理论上难以解决的问题。

     

    Abstract: The Cymbal transducer was designed with the finite element method and ANSYS. Two potent methods for segmenting fluid elements were presented, and the influences of different endcap sizes on electromechanical coupling coefficient, mechanical factor, nodal displacement and resonance frequency were analyzed by means of ANSYS simulation. Moreover, the Cymbal transducer with optimum size was designed and dynamically analyzed via three vibration modes and resonance frequencies. Therefore, the difficulty in design of the Cymbal transducer due to jump stress and strain on the rotary symmetric face has been solved theoretically.

     

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    • 参考文献(8)
  • [1] James F Tressler,Robert E Newnham, Hughes W Jack. Capped? Ceramic Underwater Sound Projector: The Cymbal Transducer.J Acoust Am, 1999,105(2):591-600.
    [2] VARDAN V V,CHIN L C.VARADAN V K,Finite-element Modeling of Flextensional Electroacoustic Transducer.Smart Mater Struct,1993.2:201-207.
    [3] TRESSLER J F,CAO W W,UCHINO K, et al. Finite-element Analysis of the Cymbal-type Flextensional Transducer. IEEE Trans UFFC,1998,45(5):1363-1369.
    [4] ZHANG Jin-dong, Anne-Christine Hladky-Hennion, W.Jack Hughes.Modeling and Underwater Characterization of Cymbal Transducers and Arrays.Newnham:IEEE Trans UFFC,2001,48(2):560-568.
    [5] 王勖成,邵 敏.有限元方法基本原理和数值方法.2版.北京:清华大学出版社,1998.
    [6] 栾桂冬,张金铎,王仁乾.压电换能器和换能器阵.修订版.北京:北京大学出版社,2004.
    [7] DOGAN A, YOSHIKAWA S, UCHINO K, et al. The Effect of Geometry on the Characteristics of the Moon Transducer and Reliability Issue.IEEE? Ultrasonics Symposium, 1994:935-939.
    [8] R.E. Newnham, A.Dogan, D.C.Markley, J.F.Tressler. Size Effects in Capped Ceramic Underwater Sound Projectors, IEEE OCEAN,2002,(4):2315-2321.
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出版历程
  • 收稿日期:  2007-02-07
  • 修回日期:  2007-04-18
  • 刊出日期:  2007-06-30

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