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Sensor Performance Of Cantilevered Magnetostrictive Beam

Cao Qinghua

Cao Qinghua

  • School of Automation, Wuhan University of TechnologyWuhan, China
  • Institute of Intelligent Manufacturing and Control, Wuhan University of TechnologyWuhan, China
  • Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Qinghua, Cao
, 
Chen Dingfang

Chen Dingfang

Institute of Intelligent Manufacturing and Control, Wuhan University of TechnologyWuhan, China
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Dingfang, Chen
, 
Lu Quanguo

Lu Quanguo

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Quanguo, Lu
, 
Tang gang

Tang gang

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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gang, Tang
, 
Yan Jianwu

Yan Jianwu

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Jianwu, Yan
, 
Zhu Zhifang

Zhu Zhifang

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Zhifang, Zhu
, 
Xu Bin

Xu Bin

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Bin, Xu
, 
Zhao Ran

Zhao Ran

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Ran, Zhao
 oraz 
Zhang Xiaoxing

Zhang Xiaoxing

Institute of Micro/nano Actuation and Control, Nanchang Institute of TechnologyNanchang, China
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Xiaoxing, Zhang
  
01 wrz 2014
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Data publikacji: 01 wrz 2014
Zakres stron: 1221 - 1238
Otrzymano: 30 mar 2014
Przyjęty: 01 wrz 2014
DOI: https://doi.org/10.21307/ijssis-2017-702
Słowa kluczowe
© 2014 Cao Qinghua et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

A nonlinear couple modeling of magnetostrictive cantilever is built by combining Gibb’s free energy formulation with the Euler-Bernoulli beam theory. The Gibb’s free energy corresponding to different orientations in 3D space can be expressed in terms of their direction cosines, the stress at a given point can be described by classical theory. The magnetomechanical bending experimental setup is designed. The results demonstrated magnetostrictive sensing can be performed in bending even when both tensile and compressive stresses are developed; meanwhile the sensing is primarily due to the dominating effect of compression over tension.

Język:
Angielski
Częstotliwość wydawania:
1 razy w roku
Dziedziny czasopisma:
Inżynieria, Wstępy i przeglądy, Inżynieria, inne
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