Nonlinear Magnetic Properties of Magnetic Fluids for Automotive Applications

IF 0.5 Q4 ENGINEERING, CHEMICAL

Hungarian Journal of Industry and Chemistry Pub Date : 2020-07-06 DOI:10.33927/hjic-2020-09

B. Horváth, I. Szalai

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引用次数: 3

Abstract

The external magnetic ﬁeld required to activate a magnetic ﬂuid in an industrial application is sufﬁciently large that magnetization is no longer a linear function of the external ﬁeld strength, i.e. magnetic ﬂuids exhibit nonlinear characteristics. The aim of our research was to develop a measuring system which is capable of determining the nonlinear AC susceptibility of magnetic ﬂuids at discrete frequencies and in the presence of a high-intensity driving magnetic ﬁeld. The measurement of susceptibility is based on the determination of the change in frequency of a low-intensity ﬁeld, which is generated by an LC oscillator. The application of sinusoidal excitation to the material results in a variation in the susceptibility that modulates the frequency of the measured low-intensity ﬁeld and in the appearance of higher-order harmonics of the driving ﬁeld. The higher-order components of the nonlinear AC susceptibility are extracted from the measured response by Fourier analysis. By applying the measuring system, the nonlinear susceptibility of water-based ferroﬂuids (Ferrotec’s EMG 700) and its dependence on the magnetic ﬁeld strength were investigated.

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汽车用磁流体的非线性磁性

在工业应用中激活磁流体所需的外部磁场足够大，磁化强度不再是外部磁场强度的线性函数，即磁流体表现出非线性特性。我们研究的目的是开发一种测量系统，该系统能够在离散频率和高强度驱动磁场的情况下确定磁流体的非线性交流磁化率。磁化率的测量基于LC振荡器产生的低强度场频率变化的确定。对材料施加正弦激励会导致磁化率的变化，从而调制测量的低强度场的频率，并出现驱动场的高次谐波。通过傅立叶分析从测量的响应中提取非线性AC磁化率的高阶分量。通过应用该测量系统，研究了水基铁流体的非线性磁化率（Ferrotec的EMG 700）及其对磁场强度的依赖性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Hungarian Journal of Industry and Chemistry ENGINEERING, CHEMICAL-

自引率

50.00%

发文量

审稿时长

6 weeks