Yucai Xie scite author profile

Yucai Xie

5Publications

23Citation Statements Received

58Citation Statements Given

How they've been cited

How they cite others

151

Affiliations

Dalian Maritime University

Publications

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Improving the Detection Ability of Inductive Micro-Sensor for Non-Ferromagnetic Wear Debris

et al. 2020

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The inductive debris sensor has been studied because of its wide application prospects in mechanical health monitoring. In order to ensure a high-precision detection performance, a comprehensive method to improve the detection sensitivity and detection ability of the inductive sensor for non-ferromagnetic metal debris is proposed. Based on the characteristics of the eddy current inside the metal, the change of the coil impedance caused by the metal debris is increased by enhancing the magnetic field strength and selecting the optimal excitation frequency. The impedance detection method involving inductance and resistance parameters is used to improve the detection limit of non-ferromagnetic metal debris. The experimental results verify that the magnetic field in the detection region can be enhanced by adding a silicon steel strip (paramagnetic material) in the central hole of the coil, thereby greatly improving the detection sensitivity of the inductive sensor, and the concentrated distribution of the magnetic field avoids the double-peak signals generated by a single particle. The characteristics of the signal amplitude of non-ferromagnetic debris with excitation frequency are studied. Higher inductance, resistance amplitudes, and signal-to-noise ratio (SNR) can be obtained by using a high-frequency alternating current. Compared with inductance parameter detection, resistance parameter detection can detect smaller non-ferromagnetic debris. Combining the detection results of the inductance and resistance parameters can effectively improve the sensor’s ability to detect non-ferromagnetic debris.

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An Ultrasensitive Microsensor Based on Impedance Analysis for Oil Condition Monitoring

Shi

Zhang

Huo

et al. 2022

IEEE Trans. Ind. Electron.

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Comprehensive detection method for multi-contaminants in hydraulic oil based on inductance-resistance-capacitance analysis

Shi

Xie

et al. 2022

Tribology International

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A Novel Impedance Micro-Sensor for Metal Debris Monitoring of Hydraulic Oil

Zhang

Shi

et al. 2021

Micromachines

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Hydraulic oil is the key medium for the normal operation of hydraulic machinery, which carries various wear debris. The information reflected by the wear debris can be used to predict the early failure of equipment and achieve predictive maintenance. In order to realize the real-time condition monitoring of hydraulic oil, an impedance debris sensor that can detect inductance and resistance parameters is designed and studied in this paper. The material and size of wear debris can be discriminated based on inductance-resistance detection method. Silicon steel strips and two rectangular channels are designed in the sensor. The silicon steel strips are used to enhance the magnetic field strength, and the double rectangular detection channels can make full use of the magnetic field distribution region, thereby improving the detection sensitivity and throughput of the sensor. The comparison experiment shows that the coils in series are more suitable for the monitoring of wear debris. By comparing and analyzing the direction and the presence or absence of the signal pulses, the debris sensor can detect and distinguish 46 µm iron particles and 110 µm copper particles. This impedance detection method provides a new technical support for the high-precision distinguishing measurement of metal debris. The sensor can not only be used for oil detection in the laboratory, but also can be made into portable oil detection device for machinery health monitoring.

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A Bridge-Type Inductance Sensor With a Two-Stage Filter Circuit for High-Precision Detection of Metal Debris in the Oil

et al. 2021

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Yucai Xie

Improving the Detection Ability of Inductive Micro-Sensor for Non-Ferromagnetic Wear Debris

An Ultrasensitive Microsensor Based on Impedance Analysis for Oil Condition Monitoring

Comprehensive detection method for multi-contaminants in hydraulic oil based on inductance-resistance-capacitance analysis

A Novel Impedance Micro-Sensor for Metal Debris Monitoring of Hydraulic Oil

A Bridge-Type Inductance Sensor With a Two-Stage Filter Circuit for High-Precision Detection of Metal Debris in the Oil

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