Development of a GMI sensor for evaluating microstructural degradation in ferromagnetic materials

机译：开发用于评估铁磁材料微结构退化的GMI传感器

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摘要

A Giant Magneto-Impedance (GMI) based electromagnetic sensing device has been designed and developed using a nanostructured CoFeSiB microwire as sensing core element. The sensor consists of three segments, (i) signal generation and amplification unit, (ii) transducer with the bridge circuit and (iii) the detection circuit. The sensor output voltage is directly correlated to hardness variation in heat-treated 9Cr-1Mo steel and martensite volume fraction in the deformed 304 SS austenitic stainless steel. The amplitude of GMI voltage in defective welded pipe has also been investigated. The present study indicated that the developed GMI sensor can be applicable for structural health monitoring of service exposed engineering components.

机译：使用纳米结构的CoFeSiB微线作为传感核心元件，已经设计和开发了基于巨磁阻抗（GMI）的电磁传感设备。传感器由三部分组成：（i）信号生成和放大单元，（ii）带有电桥电路的换能器和（iii）检测电路。传感器输出电压直接与9Cr-1Mo热处理钢的硬度变化和变形的304 SS奥氏体不锈钢的马氏体体积分数相关。还研究了缺陷焊管中GMI电压的幅度。本研究表明，开发的GMI传感器可适用于服务暴露的工程组件的结构健康监测。

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来源
《2012 Sixth International Conference on Sensing Technology.》|2012年|p.108-111|共4页
会议地点 Kolkata(IN);Kolkata(IN)
作者
Sarkar Partha; Roy Rajat K.; Panda Ashis K.; Mitra Amitava;
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作者单位

NDE Magnetic Materials Group, Materials Science Technology Division CSIR-National Metallurgical Laboratory, Jamshedpur 831007, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类 TP212;TP212;
关键词
GMI Sensor; Magnetic phases; Microstructural degradation; Structural health monitoring;

机译：GMI传感器;磁性相;微结构退化;结构健康监测;;

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专利

1. Non-destructive evaluation of ferromagnetic material thickness using Pulsed Eddy Current sensor detector coil voltage decay rate [J] . Nalika Ulapane, Alen Alempijevic, Jaime Valls Miro, NDT & E international . 2018,第Deca期

机译：使用脉冲涡流传感器探测器线圈电压衰减率对铁磁材料厚度进行无损评估
2. Non-destructive evaluation of ferromagnetic material thickness using Pulsed Eddy Current sensor detector coil voltage decay rate [J] . Nalika Ulapane, Alen Alempijevic, Jaime Valls Miro, NDT & E international . 2018,第DECa期

机译：使用脉冲涡流传感器探测器线圈电压衰减率对铁磁材料厚度进行无损评估
3. Non-destructive evaluation of ferromagnetic material thickness using Pulsed Eddy Current sensor detector coil voltage decay rate [J] . Ulapane Nalika, Alempijevic Alen, Miro Jaime Valls, NDT & E International: Independent Nondestructive Testing and Evaluation . 2018,第期

机译：使用脉动涡流传感器检测器线圈电压衰减速率的无损性评估铁磁性材料厚度
4. Development of a GMI sensor for evaluating microstructural degradation in ferromagnetic materials [C] . Sarkar Partha, Roy Rajat K., Panda Ashis K., International Conference on Sensing Technology . 2012

机译：用于评估铁磁材料微观结构降解的GMI传感器的开发
5. Design, development and application of a novel microwave nondestructive evaluation sensor based on metamaterial lens. [D] . Shreiber, Daniel. 2008

机译：基于超材料透镜的新型微波无损评估传感器的设计，开发和应用。
6. Magnetic Sensors Based on Amorphous Ferromagnetic Materials: A Review [O] . Carlos Morón, Carolina Cabrera, Alberto Morón, 2015

机译：非晶铁磁材料的磁传感器的研究进展
7. Magnetic Hysteretic Characterization of Ferromagnetic Materials with Objectives towards Non-Destructive Evaluation of Material Degradation [O] . Vandenbossche Lode 2009

机译：铁磁材料的磁滞特性及目标对材料退化的无损评价
8. Feasibility Evaluation of a Ferromagnetic Materials Sensor [R] . Cook, E. J. 1972

机译：铁磁材料传感器的可行性评估

Development of a GMI sensor for evaluating microstructural degradation in ferromagnetic materials

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