Ganmin Xia scite author profile

In this paper, the influence of the contact resistance between the conductive fluid and the metal electrode on the output characteristics of the magnetic fluid micro-angular vibration sensor (MHD sensor) is theoretically analyzed. The contact resistance models based on the solid-solid electric contact theory are established based on the resistivity, temperature, pressure and angular vibration of the materials between the conductive fluid and the metal electrode. The contact resistance was tested by setting up an experimental platform and making conductive fluid rings with electrode materials of Ag, Cu and Ti. The results show that the static contact resistance between the conductive fluid and the metal electrode is positively correlated with the material resistivity and temperature, and negatively correlated with the surface roughness and contact pressure of the metal electrode. The dynamic contact resistance fluctuation is proportional to the amplitude of the input voltage of the angle shaker and inversely proportional to the square of the input frequency. At the same time, reducing contact resistance can improve the MHD sensor’s performance.

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Evaluation of Methods for Estimating Noise Floor of MHD Angular Rate Sensors in Operation

Liu

Xia

2022

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Research on Characteristics of Magnetohydrodynamic Micro-Angle Vibration Sensor in AC Magnetic Field

Xia

Tuo

et al. 2023

IEEE Sensors J.

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Quantitative analysis of position setting effect on magnetohydrodynamics angular vibration sensor response

Tuo

et al. 2021

Sensors and Actuators A: Physical

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Ganmin Xia

Two-step digital image correlation for micro-region measurement

Study on the Performance of Liquid-Solid Contact Resistance Based on Magnetohydrodynamic Micro-Angular Vibration Sensor

Evaluation of Methods for Estimating Noise Floor of MHD Angular Rate Sensors in Operation

Research on Characteristics of Magnetohydrodynamic Micro-Angle Vibration Sensor in AC Magnetic Field

Quantitative analysis of position setting effect on magnetohydrodynamics angular vibration sensor response

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