4.5 Article

Theoretical and simulation analysis on the spatial resolution of magnetic metal debris sensors

Journal

FRONTIERS IN MATERIALS
Volume 10, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fmats.2023.1110834

Keywords

inductive debris sensor; spatial resolution; sensitivity; signal aliasing; adjacent particles

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The importance of inductive debris sensor in online oil debris detection is increasing. This study proposes a new criterion for evaluating the performance of an inductive oil debris sensor: spatial resolution. Clear signals responding to each particle are vital when multiple metal particles pass through the sensor simultaneously. The spatial resolution refers to the allowable distance between two particles when the sensor can accurately distinguish the particle signals. Theoretical analysis and COMSOL simulation are conducted to investigate the factors affecting the spatial resolution and improve the sensor's accuracy of debris identification.
Inductive debris sensor is becoming increasingly important in online oil debris detection. This work proposes a new criterion for evaluating the performance of an inductive oil debris sensor: spatial resolution. When multiple metal particles in lubricating oil simultaneously pass through the sensor, it is vital that clear signals responding to each particle are produced. The spatial resolution is referred to the allowable distance between two particles when the sensor can accurately distinguish the particle signals. Theoretical analysis shows that spatial resolution has a relationship with the output signal of a single particle. A COMSOL model is established to simulate a coil output when two adjacent particles pass, and the output signals change with the distance between two particles, the particle size and the coil structures. Results show that the relevant factors affecting the spatial resolution, and a small coil radius can help improve the sensor's accuracy of debris identification.

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