磁致伸缩导波传感器换能效率估计方法
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TH89 TG115.28

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国家自然科学基金(51575213)


Coupling efficiency estimate method for magnetostrictive guided wave transducer
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    摘要:

    偏置磁场与磁致伸缩纵向导波磁致伸缩传感器换能效率密切相关,为了解决磁致伸缩纵向导波检测中缺少传感器换能效率估计手段的问题,提出了一种估计永磁式磁致伸缩纵向导波传感器换能效率的方法。首先,从磁致伸缩导波能量转换的角度出发,建立了截面区域偏置磁场强度与导波接收信号幅值间的关系。其次,根据磁致伸缩纵向导波偏置磁场的作用机理,针对管道内磁场不均匀现象,提出了磁致伸缩纵向导波传感器换能效率的评估方法。然后,通过有限元仿真及实验对通过管道表面空气中的磁场强度表征管道内偏置磁场的可行性进行了验证。最后,通过实验确定了方法的有效性。该方法通过测量管道外表面空气中周向多个位置的轴向磁场强度表征管道截面内偏置磁场强度,利用偏置磁场强度与导波通过信号幅值关系曲线得到不同区域单元振动对导波信号的能量贡献,计算得到加权幅值,并以此幅值为依据估计传感器的换能效率。方法实现了对磁致伸缩导波传感器换能效率的估计,为仪器智能化研究提供了基础。

    Abstract:

    The bias magnetic field is related to the coupling efficiency of magnetostrictive effect and its inverse effect sensors. In order to meet the need for longitudinal mode magnetostrictive guided wave inspection, a method was proposed to evaluate the bias magnetic field produced by permanent magnets. Firstly, from the point of energy conversion in magnetostrictive guided wave defection process, the connection between the bias magnetic field and amplitude of guided wave signal is obtained. Secondly, a method was proposed to estimate bias magnetic field considering the uneven distribution of the magnetic field and the principle of magnetostrictive effect and its inverse effect. Thirdly, a finite element model is built and experiments are carried out to confirm the feasibility of the characterization of bias magnetic field. At last, a verification experiment was conducted to confirm the effectiveness of method. This method takes advantages of the values of magnetic field intensity along the circumferential direction on the pipe outer surface to characterize the bias magnetic field, using the relationship lines between signal amplitude and bias magnetic field. As a consequence, this method can be used to estimate the bias magnetic field for improving the efficiency of magnetostrictive longitudinal guided wave testing and provide a basis for the future study of intelligent instrument.

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孙永,徐江,周金海,武新军.磁致伸缩导波传感器换能效率估计方法[J].仪器仪表学报,2017,38(7):1705-1713

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  • 收稿日期:2016-10-31
  • 最后修改日期:2017-07-06
  • 录用日期:2017-07-07
  • 在线发布日期: 2024-01-16
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