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Comparative Study of Structural, Electrical, and Magnetic Behaviour of Ni-Cu-Zn Nanoferrites Sintered by Microwave and Conventional Techniques

机译：微波及常规技术烧结Ni-Cu-Zn纳米铁矿石结构，电力和磁力的比较研究

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Ni0.8-xCuxZn0.2Fe2O4 spinel type ferrite nanoparticles have been synthesized by citrate precursor method. These nanoparticles were then given heat treatment using microwave and conventional sintering techniques. Various characterizations using X-ray powder diffraction (XRD), scanning electron microscope (SEM), LCR meter, and B-H loop tracer were carried out on the sintered specimens. The XRD spectra of these ferrites confirmed the formation of spinel structure. The average crystallite size calculated using Scherrer’s formula was found to be in the nanometer range, its value varying from 33 nm to 39 nm. Microwave sintered samples exhibited superior electrical and magnetic behaviour over their conventionally sintered counterparts. Feasibility of low temperature synthesis and promising properties will render these ferrites suitable for multilayer chip inductor applications.

机译：Ni0.8-XcuxZn0.2Fe2O4尖晶石型铁氧体纳米粒子已通过柠檬酸盐前体方法合成。然后使用微波和常规烧结技术给予这些纳米颗粒。在烧结样品上对使用X射线粉末衍射（XRD），扫描电子显微镜（SEM），LCR表和B-H环形示踪剂的各种表征。这些铁氧体的XRD光谱证实了尖晶石结构的形成。发现使用Scherrer配方计算的平均微晶尺寸在纳米范围内，其值不同于33nm至39nm。微波烧结样品在其常规烧结的对应物上表现出优异的电气和磁性行为。低温合成和承诺性能的可行性将使这些铁氧体适用于多层芯片电感器应用。

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Biju Thangjam; Ibetombi Soibam;
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年度 2017
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Comparative Study of Structural, Electrical, and Magnetic Behaviour of Ni-Cu-Zn Nanoferrites Sintered by Microwave and Conventional Techniques

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