Investigation on Eddy Current Sensor in Tension Measurement at a Resonant Frequency

For resolving deficiencies of conventional tension measurement methods, this paper proposes a novel eddy current sensor with a single-coil structure based on the inverse magnetostrictive effect. An inductor–resistor–capacitor (LRC) model of eddy current sensor, which considers more parameters than the traditional inductor–resistor (LR) model, was established. The eddy current sensor was operated by a swept frequency signal that ranged from 0.1 MHz to 1.6 MHz, encompassing the sensor resonant frequency. At the resonant frequency, the data of impedance magnitude and phase were extracted and linear relations between the impedance parameters and the external tension were ascertained. The experimental results show that the resonant frequency and impedance magnitude of eddy current sensor will decrease linearly with the increase of the external tension, which is consistent with the theoretical model. In addition, to improve sensor performance, the sleeve structure was designed to reduce the loss of magnetic field. Both finite element simulations and experimental results demonstrate that the sleeve structure provides a higher permeability path to the magnetic field lines than the non-sleeve structure and effectively improves sensor sensitivity and correlation coefficient.

[1]  Gui Yun Tian,et al.  Extension of a model for eddy current inspection of cracks to pulsed excitations , 2012 .

[2]  George M. Lloyd,et al.  TED-AJ03-596 Effects of Temperature and Corrosion Thickness and Composition on Magnetic Measurements of Structural Steel Wires , 2004 .

[3]  Jung-Yeol Kim,et al.  Development of a wireless sensor network system for suspension bridge health monitoring , 2012 .

[4]  Jia Bi,et al.  Magnetoelastic Effect-Based Transmissive Stress Detection for Steel Strips: Theory and Experiment , 2016, Sensors.

[5]  Werner Ricken,et al.  Improved multi-sensor for force measurement of pre-stressed steel cables by means of the eddy current technique , 2006 .

[6]  David P. Thambiratnam,et al.  Condition monitoring and rating of bridge components in a rail or road network by using SHM systems within SRP , 2015 .

[7]  S. Sumitro,et al.  Sustainable structural health monitoring system , 2005 .

[8]  Gui Yun Tian,et al.  Electromagnetic and Eddy Current NDT: A Review , 2001 .

[9]  G. Tian,et al.  Residual magnetic field sensing for stress measurement , 2007 .

[10]  B. K. Kaushik,et al.  A novel E-shaped coil for eddy current testing , 2013 .

[11]  Yuequan Bao,et al.  Identification of time‐varying cable tension forces based on adaptive sparse time‐frequency analysis of cable vibrations , 2017 .

[12]  Shanglian Huang,et al.  Using PVDF piezoelectric film sensors for in situ measurement of stayed-cable tension of cable-stayed bridges , 1999 .

[13]  R. W. Baines,et al.  The research of inhomogeneity in eddy current sensors , 1998 .

[14]  Chuan-Zhi Dong,et al.  Development of Elasto-Magneto-Electric (EME) Sensor for In-Service Cable Force Monitoring , 2016 .

[15]  Yunze He,et al.  Influence of metallic shields on pulsed eddy current sensor for ferromagnetic materials defect detection , 2016 .

[16]  Yang Zhao,et al.  Smart Elasto-Magneto-Electric (EME) Sensors for Stress Monitoring of Steel Cables: Design Theory and Experimental Validation , 2014, Sensors.

[17]  Gui Yun Tian,et al.  Stress measurement using magnetic Barkhausen noise and metal magnetic memory testing , 2010 .

[18]  Du Pingan,et al.  A new eddy current displacement measuring instrument independent of sample electromagnetic properties , 2012 .

[19]  Yang Zhao,et al.  Steel stress monitoring sensor based on elasto-magnetic effect and using magneto-electric laminated composite , 2012 .

[20]  Ming L. Wang,et al.  Field application of elasto-magnetic stress sensors for monitoring of cable tension force in cable-stayed bridges , 2013 .

[21]  Ru Zhang,et al.  Smart elasto-magneto-electric (EME) sensors for stress monitoring of steel structures in railway infrastructures , 2011 .

[22]  H.-C.. Schoenekess,et al.  Method to Determine Tensile Stress Alterations in Prestressing Steel Strands by Means of an Eddy-Current Technique , 2007, IEEE Sensors Journal.

[23]  Aiqun Li,et al.  Wind-Induced Fatigue Analysis of High-Rise Steel Structures Using Equivalent Structural Stress Method , 2017 .

[24]  Ting-Hua Yi,et al.  Structural health monitoring of innovative civil engineering structures in Mainland China , 2016 .

[25]  Weimin Chen,et al.  Study of a steel strand tension sensor with difference single bypass excitation structure based on the magneto-elastic effect , 2008 .

[26]  Javier García-Martín,et al.  Non-Destructive Techniques Based on Eddy Current Testing , 2011, Sensors.

[27]  Werner Ricken,et al.  GMR and eddy current sensor in use of stress measurement , 2001 .

[28]  Jongdae Baek,et al.  Impedance-Based Non-Destructive Testing Method Combined with Unmanned Aerial Vehicle for Structural Health Monitoring of Civil Infrastructures , 2016 .