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Nonlinear Finite Element Analysis of Composite Flextensional Transducer Shell

机译：复合弯张换能器壳体的非线性有限元分析

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Presented here is the result of a Finite Element Analysis (FEA) and itscorrelation with test data for a Class IV flextensional underwater acoustic transducer. The thick, elliptical fiberglass/epoxy shell of the transducer Finite Element Model (FEM) was modeled with 20-node solid elements using effective engineering properties derived from a micromechanics theory. Unidirectional gap elements were used to model the clearance between the end curves of the shell and the two D-shaped aluminum inserts. The D-inserts were placed along the major axis of the shell to transmit the driving power of the piezoelectric ceramic stack in order to excite shell's flaxural modes for an efficient acoustic radiation. The model also featured large deformation. The predicted global displacements of the shell, as well as the local strain values at several critical locations in the shell, correlated very well with the test data obtained from the stack preload and hydrostatic pressure tests. Gapping between the end curve of the shell and the D-insert, which was detected during the pressure test, was also predicted in the analysis. Gapping has been shown to be detrimental to the structural, as well as the acoustic performance of the shell. The success of this pilot model, in accurately predicting the structural behavior of the transducer shell under simulated loading conditions, has lead to a series of FEA studies to determine the sensitivities of the shell's structural performance to thickness variation and to nonuniform material property distribution in the shell. Nonuniform material property distribution arise from the variation in parameters, such as moduli of the constituents, fiber volume fraction, and ply arrangement of the laminates. ... Active surveillance (reverberation), D.

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作者
Shaw, R. C.;
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年度 1993
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总页数 29
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Acoustic surveillance; Finite element analysis; Transducers; Underwateracoustics; Nonlinear analysis; Aluminum; Correlation; Data processing; Deformation; Displacement; Fiberglass; Fibers; Hydrostatic pressure; Hydrostatics; Inserts; Laminates; Materials;

机译：声学监视;有限元分析;传感器; Underwateracoustics;非线性分析;铝;相关性;数据处理;变形;位移;玻璃纤维;纤维;静水压力;静水学;插入物;层压板;材料;

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专利

1. ANALYSIS OF A BARREL-STAVE FLEXTENSIONAL TRANSDUCER USING MAVARTM AND ATILA FINITE ELEMENT CODES [J] . Richard A.G. Fleming, Mark Kwiecinski, Dennis F. Jones Canadian acoustics . 2008,第2期

机译：利用MAVARTM和ATILA有限元代码分析桶形弯曲挠性传感器
2. Analysis and Design of a Flextensional Transducer by Means of the Finite Element Method [J] . Yongrae Roh, Kookjin Kang Japanese journal of applied physics . 2008,第5issue2期

机译：挠性传感器的有限元分析与设计
3. Finite element analysis of the cymbal-type flextensional transducer [J] . Tressler J.F., Wenwu Cao, Uchino K., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 1998,第5期

机译：c式弯曲张力传感器的有限元分析
4. Finite Element Analysis of Flextensional Transducer with Slotted Shell [C] . Si Chen, Yu Lan International conference on graphic and image processing . 2013

机译：开缝式挠性传感器的有限元分析
5. GEOMETRIC AND MATERIAL NONLINEAR DYNAMIC ANALYSIS OF COMPLEX SHELLS (FINITE ELEMENTS, ELASTIC-VISCOPLASTICITY, TIRE INFLATION, CONTACT). [D] . SAIGAL, SUNIL. 1985

机译：复杂壳的几何和材料非线性动力学分析（有限元，弹性粘弹，轮胎充气，接触）。
6. Quadratic Solid–Shell Finite Elements for Geometrically Nonlinear Analysis of Functionally Graded Material Plates [O] . Hocine Chalal, Farid Abed-Meraim 2018

机译：用于功能梯度材料板几何非线性分析的二次固态壳有限元
7. Three-dimensional finite element model of a high power, low frequency ring-shell flextensional sonar transducer [O] . Pinto Rogerio Nacimento Costa 1992

机译：大功率，低频环形壳挠曲声呐换能器的三维有限元模型

Nonlinear Finite Element Analysis of Composite Flextensional Transducer Shell

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