NiCuZn铁氧体成分应用于应力传感器的可能性

IF 18.6 1区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of Advanced Ceramics Pub Date : 2013-01-01 DOI:10.1155/2013/901375

M. P. Reddy, W. Madhuri, M. Ramana, Il-Gon Kim, D. Yoo, N. R. Reddy, K. Kumar, D. Subbaiah, R. R. Reddy

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引用次数: 4

摘要

采用传统陶瓷双烧结法制备了NiCuZn铁氧体，其组成为(NCu0.10Zn0.60F)，分别为0.02、0.04、0.06、0.08和0.10。x射线衍射证实了单相的形成。用电子显微镜对其微观结构特征进行了研究。这些样品的初始渗透率测量在30至300℃的温度范围内进行。通过平行于磁化方向施加单轴压应力，研究了外加应力对铁氧体开路式线圈的影响，并测量了电感的变化。电感(ΔL/L)%的变化在施加压应力达到一定程度后增大，随后减小，表明本文所研究的铁氧体对不同成分的应力敏感性不同。考察了电感比(ΔL/L)%随外加压应力的变化规律。结果表明，Ni0.42Cu0.10Zn0.60Fe1.76O3.76和ni0.44 cu0.10 zn0.60 fe1.72 2o3.72样品适合电感式应力传感器的应用。

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Possibility of NiCuZn Ferrites Composition for Stress Sensor Applications

NiCuZn ferrite with composition of (NCu0.10Zn0.60F) (where , 0.02, 0.04, 0.06, 0.08, and 0.10) was prepared by the conventional ceramic double sintering technique. The formation of single phase was confirmed by X-ray diffraction. The microstructural features were also studied by electronic microscopy and are reported. Initial permeability measurements on these samples were carried out in the temperature range of 30 to 300°C. The effect of external applied stress on the open magnetic circuit type coil with these ferrite cores was studied by applying uniaxial compressive stress parallel to the magnetizing direction and the change in the inductance was measured. The variation of inductance (ΔL/L)% increases up to certain applied compressive stress and there after it decreases, showing different stress sensitivities for different compositions of ferrites studied in the present work. The variation of ratio of inductance (ΔL/L)% with external applied compressive stress was examined. These results show that the Ni0.42Cu0.10Zn0.60Fe1.76O3.76 and Ni0.44Cu0.10Zn0.60Fe1.72O3.72 samples are found to be suitable for inductive stress sensor applications.

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来源期刊

Journal of Advanced Ceramics MATERIALS SCIENCE, CERAMICS-

CiteScore

21.00

自引率

10.70%

发文量

290

审稿时长

14 days

期刊介绍： Journal of Advanced Ceramics is a single-blind peer-reviewed, open access international journal published on behalf of the State Key Laboratory of New Ceramics and Fine Processing (Tsinghua University, China) and the Advanced Ceramics Division of the Chinese Ceramic Society. Journal of Advanced Ceramics provides a forum for publishing original research papers, rapid communications, and commissioned reviews relating to advanced ceramic materials in the forms of particulates, dense or porous bodies, thin/thick films or coatings and laminated, graded and composite structures.