共查询到19条相似文献,搜索用时 110 毫秒
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本文选择了高聚物中杨氏模量较大、损耗较小的聚苯硫醚作为复合棒型换能器的前盖板。计算了聚苯硫醚棒中的纵波传播速度,研究了基于聚苯硫醚材料的复合棒型换能器的等效电路设计方法。利用有限元方法计算了换能器谐振频率、轴向应变分布、平均耗散功率等性能参数。对本文研制的前盖板为聚苯硫醚、后盖板为钢(1#)和前后盖板均为聚苯硫醚(2#)的两个换能器进行了测试。结果表明,理论计算的谐振频率与实验测试相吻合;两个换能器的振幅均与所施加的电压成正比,且1#换能器的振幅电压比更大;两个换能器的耗散功率与外加电压平方成正比,在应变较大处耗散功率较高,导致局部升温明显,测得两个换能器温度最高处均位于应变最大位置处。1#换能器的前后振幅比为26,与同频率的金属组件换能器相比,若后盖板为尺寸相同的钢材,前盖板采用聚苯硫醚材料能够显著提高换能器的前后振幅比,且带宽也较大。 相似文献
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系统研究了厚度模压电换能器的背衬厚度、声阻抗率及机械损耗因子对换能器振动性能影响,重点分析了在所关心频率附近的有效机电耦合系数和机械品质因数。计算结果表明,随着背衬厚度增大,换能器的有效机电耦合系数和机械品质因数均震荡减小;背衬声阻抗率与压电片声阻抗率差值增大,换能器有效机电耦合系数减小,机械品质因数增大;保持压电片厚度不变,增大背衬的机械损耗因子,换能器有效机电耦合系数单调减小,机械品质因数有极小值,在给定频率范围内电特性曲线趋于光滑。用有限元方法验证了等效电路计算方法的正确性,并对比了换能器的测试结果和计算结果。计算所得规律为厚度模压电换能器的设计和实验制作提供了理论依据。 相似文献
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为了降低纵向换能器尺寸并提高发射带宽和发送电压响应,研究了一种弛豫铁电单晶/压电陶瓷混合激励换能器,换能器由[011]方向极化PIN-PMN-PT单晶和PZT-4压电陶瓷混合激励,利用多模态振动耦合的原理,通过单晶的32模式振动,可以灵活调整两种振子之间的驱动能力和刚度分配。首先通过四端网络法得到了换能器等效电路并计算了其谐振频率,然后利用有限元方法对换能器进行了仿真优化,最后制作了试验样机并进行了测试分析。换能器样机外径86 mm、长度80 mm,工作频带13~38 kHz,最大发送电压响应为144.9 dB,带内发送电压响应起伏小于6 dB,具有良好的宽带、小尺寸工作性能。 相似文献
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精确控制施加于驱动元件上的预应力,对换能器的设计及其工作过程都有重要意义,特别对于稀土磁致伸缩换能器来说,有助于发挥其最大潜能.利用有限元方法,计算了VII型水声弯张换能器壳体给驱动元件施加一定预应力时,壳体所需的装配位移的大小,并通过实验作了验证;弯张换能器随入水深度的不同, 驱动元件两端所受到的总的预应力是不同的.利用有限元方法,计算了换能器入水深度与预应力的关系.本文方法可适合于其他任何类型的换能器.
关键词:
弯张换能器
装配位移
预应力
入水深度 相似文献
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K.P.B. Moosad P. Krishnakumar G. Chandrashekar R.M.R. Vishnubhatla 《Applied Acoustics》2007,68(10):1280-1285
Class IV flextensional transducers (FTs) are the best-known FTs in literature. These are light-weight projectors (compared to the conventional Tonpilz designs) with capability for high power delivery at low frequencies. The resonance frequencies of this type of transducers are known to be dominantly dependent on the characteristics of the outer shell than on the driver stack. Consequently, the method of achieving fine-tuning of the transducer by modifying the characteristics of the stack, as practiced in the case of Tonpilz designs, is not very effective. This paper describes a method for fine-tuning of the frequency of a Class IV FT, which involves only a modification of a pair of small components used for coupling the stack to the transducer. The effectiveness of the method is examined by finite element modelling using the package ATILA, in the case of a 3 kHz aluminium shell transducer. Experimental results are also presented. 相似文献
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提出一种具有水平无指向性、低频、宽带、大功率特点的新结构换能器——“星型”柱面发射换能器,换能器由共享后质量块的6个复合棒换能器按“星型”方式组成柱面结构。采用有限元方法对换能器进行了分析设计并制作了换能器样机。在1—10 kHz内,换能器有3个主要工作模态,前两阶工作模态对换能器工作带宽的展宽有贡献,第三阶模态显示出较强的指向性,水池测试换能器具有1倍频程的工作带宽,最大声源级为199.1 dB。有限元模拟结果和实验结果符合较好。研究结果表明,新结构换能器在满足水平无指向性的前提下,利用复合棒的纵振及辐射面的弯曲振动实现了低频、宽带、大功率的要求,提供了一种设计该特性换能器的新思路。 相似文献
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This paper will describe the application of a finite element (FE) code to design a test cell, in which a single transducer is used to generate acoustic cavitation. The FE model comprises a 2-D slice through the centre of the test cell and was used to evaluate the generated pressure fields as a function of frequency. Importantly, the pressure fields predicted by FE modelling are used to indicate the position of pressure peaks, or 'hot-spots', and nulls enabling the systems design engineer to visualise both the potential cavitation areas, corresponding to the 'hot-spots', and areas of low acoustic pressure. Through this design process, a rectangular test cell was constructed from perspex for use with a 40 kHz Tonpilz transducer. A series of experimental measurements was conducted to evaluate the cavitation threshold as a function of temperature and viscosity/surface tension, for different fluid load media. The results indicate the potential of the FE design approach and assist the design engineer in understanding the influence of the fluid load medium on the cell's ability to produce a strong cavitation field. 相似文献
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A rapid identification of the piezoelectric material constants for a piezoelectric transducer is proposed. The validity of a three-dimensional finite element routine was confirmed experimentally. The asymptotic waveform evaluation (AWE) was adopted for a fast frequency sweep of the finite element analysis. The three-dimensional finite element method with an AWE and a design sensitivity method was used for a material inversion scheme of piezoelectric transducers. In order to confirm the inversion routine of the material constants, the mechanical displacements, which mean the mode shape, were calculated along the vertical and lateral position of the sample transducer. 相似文献
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《Ultrasonics》2005,43(1):13-19
A rapid identification of the piezoelectric material constants for a piezoelectric transducer is proposed. The validity of a three-dimensional finite element routine was confirmed experimentally. The asymptotic waveform evaluation (AWE) was adopted for a fast frequency sweep of the finite element analysis. The three-dimensional finite element method with an AWE and a design sensitivity method was used for a material inversion scheme of piezoelectric transducers. In order to confirm the inversion routine of the material constants, the mechanical displacements, which mean the mode shape, were calculated along the vertical and lateral position of the sample transducer. 相似文献
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The outer cavity Janus-Helmholtz with sound insulation layer is presented for obtaining the capacity of high-power non-directional transmitting. The radiation efficiency and directivity in the 0 degrees direction can be improved when the radiation mode is changed by laying sound insulation layer. The operating bandwidth can be expanded effectively by the dual mode coupling between the cavity vibration and longitudinal vibration of Janus transducer. A prototype is designed by finite element method. Test results show that the results are in good agreement with the design results. Compared with inner cavity Janus-Helmholtz transducer,acoustic radiation performance of outer cavity Janus-Helmholtz underwater acoustic transducer in the 0 degrees direction has been significantly improved. 相似文献
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电动换能器的设计涉及电磁场和声-结构耦合问题,本文利用COMSOL多物理场分析软件提供的该两种分析模块进行组合,以电磁理论为基础推导出了适合COMSOL数值计算的公式,把两种耦合场的分析结合起来,利用电磁场分析过程计算所需要变量,代入声-结构耦合场进行分析,得到声场分布情况。文章也大致介绍了COMSOL的有限元建模和该两种模块的使用方法。本文对电动换能器结构如何优化不做讨论。 相似文献