Investigation of a non-contact strain measurement technique

机译：研究非接触应变测量技术

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The goal of this project was to investigate the feasibility of a new non-contact technique for directly and continuously monitoring peak strain in rotating components. The technique utilizes the unique strain-sensitive magnetic material properties of TRansformation Induced Plasticity (TRIP) steel alloys to measure strain. These alloys are weakly magnetic when unstrained but become strongly ferromagnetic after mechanical deformation. A computer study was performed to determine whether the strain-induced change in the magnetic material properties of a TRIP steel gage bonded to a rotating component would cause significant perturbations in the magnetic flux of a stationary electromagnet. The effects of strain level, distance between the rotating component and the stationary electromagnet, and motion-induced eddy currents on flux perturbation magnitude were investigated. The calculated results indicate that a TRIP steel strain sensing element can cause a significant perturbation in the magnetic flux of a stationary electromagnet. It appears that the technique can be successfully applied to measure peak strain in rotating components; however, the sensitivity of the magnetic flux perturbation magnitude to the distance between the strain sensing element and the electromagnet may require making an independent proximity measurement.

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Talarico, L. J.; Damiano, B.;
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年度 1997
页码 1-15
总页数 15
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Strain Gages ; Turbomachinery ; Magnetic Properties ; Maintenance ; Measuring Methods ; Monitoring ; Parametric Analysis ; Reliability ; Steels ; Strains ; Tables(data);

机译：应变计;透平机械;磁性;维护;测量方法;监测;参数分析;可靠性;钢;应变;表（数据）;

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机译：研究非接触应变测量技术

Investigation of a non-contact strain measurement technique

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