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Effect of particle diameter and packing density on heating of metallic iron particles in alternating magnetic field

机译：粒径和填料密度对交替磁场中金属铁颗粒加热的影响

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The heat losses originated from the electro-magnetic absorption in mechanically packed metallic iron nano- and micro-sized magnetic particles (MPs) and in magnetic epoxybased composites with embedded MPs were studied by Calvet microcalorimetry. Nano-sized MPs with numerical average diameter 40 nm were synthesized by electrical explosion of wire method; micro-sized MPs with numerical average diameter 2 μm were synthesized by flame decomposition of the iron pentacarbonyl. The specific loss power (SLP) of re-magnetization of press-packed powdered samples and epoxy composites in magnetic field 1750 A/m at 214 kHz was measured as a function of the volume fraction of MPs in the sample. The results showed up that SLP depended both on particle size and on volume fraction, which meant the significant effect of magnetic interaction among particles on the heat losses in electromagnetic absorption.

机译：通过CALVET微量离核学研究了机械填充金属铁纳米和微型磁性颗粒（MPS）和磁性环氧基复合材料中的电磁吸收的热损失。用电线法爆炸合成具有数值平均直径40nm的纳米大小MPS; 通过铁芳羰基的火焰分解合成具有数值平均直径2μm的微尺寸MP。作为样品中MP的体积分数的函数测量压填充粉末样品和磁场中的环氧复合材料的重新磁化和磁场中的环氧复合材料的特定损耗功率（SLP）。结果表明，SLP依赖于粒径和体积分数，这意味着粒子之间的磁性相互作用在电磁吸收中的热损失中的显着效果。

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《Euro-Asian Symposium "Trends in Magnetism"》|2020年|p1-480|共7页
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Roman V Krekhno; Alexander P Safronov; Igor V Beketov;
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Effect of particle diameter and packing density on heating of metallic iron particles in alternating magnetic field

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