Optimization Design and Dynamic Analysis of Giant Magnetostrictive Transducer Based on Finite Element Method

被引：0

作者：

Huang, Wenmei ^{[1
]}

Zhai, Li ^{[2
]}

Wang, Bowen ^{[1
]}

Cao, Shuying ^{[1
]}

机构：

[1] Hebei Univ Technol, Prov Minist Joint Key Lab Electromagnet Field & E, Tianjin, Peoples R China

[2] Tianjin Tianbao Property Serv Ltd Co, Tianjin, Peoples R China

来源：

APPLIED ELECTROMAGNETICS AND MECHANICS (II) | 2009年 / 13卷

关键词：

D O I：

暂无

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The optimization design method of giant magnetostrictive transducer has been proposed based on the circuit theory and system dynamic equation. The method includes three parts. 1) Establishing the equivalent circuit of the transducer's vibration components and educing the dimensions of the transducer components. 2) Based on these dimensions, the distribution of magnetic field in the Terfenol-D was calculated. 3) Using finite element method, the magneto-mechanical coupled dynamic equation was founded and the resonance frequency can be obtained. Calculating and experimental results show that this method can be used to optimise the structure of magnetostrictive transducers in order to transfer the maximal energy.

引用

页码：349 / +

页数：2

共 50 条

[1] Optimization design and dynamic analysis of giant magnetostrictive transducer based on finite element method
Huang, Wenmei
Zhai, Li
Wang, Bowen
Yang, Qingxin
[J]. INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 2010, 33 (3-4) : 953 - 959
[2] Finite element analysis of the active element displacement in a giant magnetostrictive transducer
Stachowiak, Dorota
[J]. COMPEL-THE INTERNATIONAL JOURNAL FOR COMPUTATION AND MATHEMATICS IN ELECTRICAL AND ELECTRONIC ENGINEERING, 2016, 35 (04) : 1371 - 1381
[3] Study on Giant Magnetostrictive Material with Transducer Finite Element Analysis
Deng, Jia
[J]. ADVANCED RESEARCH ON STRUCTURE, MATERIALS AND ENGINEERING II, 2013, 700 : 3 - 6
[4] Magnetic circuit optimization design and thermal analysis of the giant magnetostrictive transducer
Liu, Qiang
He, Xiping
[J]. ULTRASONICS, 2023, 133
[5] Finite element analysis for acoustic characteristics of a magnetostrictive transducer
Kim, J
Jung, EM
[J]. SMART MATERIALS AND STRUCTURES, 2005, 14 (06) : 1273 - 1280
[6] Influence and optimization design of structure parameters on a giant magnetostrictive transducer
Wang, Yifan
He, Xiping
Mai, Zitong
Liao, Maiwei
[J]. Applied Acoustics, 2025, 231
[7] Design optimization of piezoelectric composite transducer using finite element method
Uzgur, AE
Dogan, A
Newnham, RE
[J]. EURO CERAMICS VII, PT 1-3, 2002, 206-2 : 1297 - 1300
[8] FINITE ELEMENT ANALYSIS BASED DESIGN OPTIMIZATION OF EXCITING EFFICIENCY FOR MICROMACHINED PIEZOELECTRIC TRANSDUCER
Cai, Chenguang
Chen, Quayle
Zeng, Dujuan
Deng, Fei
Salo, Antti
Xu, Leon
[J]. MicroNano2008-2nd International Conference on Integration and Commercialization of Micro and Nanosystems, Proceedings, 2008, : 215 - 219
[9] Dynamic strain model for giant magnetostrictive transducer
Huang, WM
Wang, BW
Cao, SY
Sun, Y
Yan, RG
[J]. Proceedings of the Third International Symposium on Magnetic Industry (ISMI'04) & First International Symposium on Physics and IT Industry (ISITI'04), 2005, : 142 - 144
[10] Design and Simulation of Electroacoustic Transducer Based on Giant Magnetostrictive Material
Zhang Shuanglu
Mi Guofa
Liu Yuan
[J]. INTEGRATED FERROELECTRICS, 2022, 226 (01) : 15 - 26

← 1 2 3 4 5 →