A Micro-Force Measurement System Based on Lorentz Force Particle Analyzer for the Cleanliness Inspection of Metal Materials
Author(s): Zhang, TN (Zhang, Taonan); Liu, RC (Liu, Runcong); Yang, JL (Yang, Jinling); Wang, XD (Wang, Xiaodong)
Source: JOURNAL OF MICROELECTROMECHANICAL SYSTEMS DOI: 10.1109/JMEMS.2021.3129517 Early Access Date: NOV 2021
Abstract: In this paper, a MEMS micro-force measurement system based on Lorentz force particle analyzer (LFPA) principle is developed for the inspection of micro defects in or near the surface of metal materials. This system mainly consists of a small permanent magnet, a capacitive MEMS sensor and an interface circuit. The three parts convert a defect first into a force pulse, then a capacitive variance, and finally a voltage output. Experimental results show that this sensor system is capable to measure forces up to similar to 10 mu N with a resolution down to similar to 0.2 mu N, corresponding to defects with size of 0.5 similar to 2 mm. The amplitude of the obtained pulse signal increases with the enlargement of the defects volume, and the actual pulse waveform is consistent with the simulated pulse waveform. It demonstrates that the MEMS sensor can be the loadcell of LFPA to inspect micro defects in or near the surface of solid metals. This system is expected to be applied to the cleanliness inspection in metal sheet or foil. [2021-0116]
Accession Number: WOS:000733456200001
ISSN: 1057-7157
eISSN: 1941-0158
Full Text: https://ieeexplore.ieee.org/document/9629217