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A Wear Particle Sensor Using Multiple Inductive Coils Under a Toroidal Magnetic Field

Yin Bai, Yong Liu, Leilei Yang, Bin Fan, Peng Zhang, Song Feng

2021IEEE Access24 citationsDOIOpen Access PDF

Abstract

Inductive wear particle sensors have been widely studied due to their ability to monitor the wear status of equipment in real time. To detect wear particles more precisely, a wear particle sensor based on multiple inductive coils under a toroidal magnetic field is proposed in this paper. With inductive coils located near a stronger magnetic field, the sensor can not only ensure the flow rate, but also enhance wear particle detection accuracy. The proportional relationship between the signal and the wear particle velocity and the excitation current is discussed in this paper. The crosstalk phenomenon among different inductive coils was also investigated by single particle experiments and lubricating oil dynamic experiments. In the dynamic oil experiment, the sensor detected 13μm particles under a flow rate of 570 mL/min, which satisfied most industrial online monitoring demands.

Topics & Concepts

ToroidMagnetic fieldParticle (ecology)ExcitationInductive sensorAcousticsMaterials scienceMagnetic particle inspectionVolumetric flow rateMechanicsElectrical engineeringNuclear magnetic resonanceMagnetic nanoparticlesPhysicsEngineeringNanotechnologyNanoparticlePlasmaGeologyOceanographyQuantum mechanicsNon-Destructive Testing TechniquesLubricants and Their AdditivesMagnetic Field Sensors Techniques
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