Numerical Study of Microwave Heating of Micrometer Size Metal Particles

Motoharu SUZUKI; Maxim IGNATENKO; Masashi YAMASHIRO; Motohiko TANAKA; Motoyasu SATO

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Numerical Study of Microwave Heating of Micrometer Size Metal Particles

机译：微米级金属颗粒的微波加热数值研究

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Absorption of microwave energy in conductive nonmagnetic spherical particles is analyzed by means of finite element method. The frequency of the microwave is 2.45 GHz. To find out roles of the electric and magnetic fields in the heating process, conditions of the electric and magnetic anti-nodes in a standing wave are simulated. Results clearly show that single metallic particles are mostly heated by the magnetic component of the electromagnetic field. Density of the absorbed energy has maximum at some fixed particle radius, which equals to 3.3μm for the case of copper particles. Penetration length into multi particle system is estimated.

机译：通过有限元方法分析了导电非磁性球形颗粒中微波能量的吸收。微波频率为2.45 GHz。为了找出电场和磁场在加热过程中的作用，模拟了驻波中电磁波腹的条件。结果清楚地表明，单个金属颗粒大部分被电磁场的磁性成分加热。在一定的固定颗粒半径处，吸收能量的密度最大，对于铜颗粒而言，等于3.3μm。估计进入多粒子系统的渗透长度。

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来源
《ISIJ international》 |2008年第5期|p.681-684|共4页
作者
Motoharu SUZUKI; Maxim IGNATENKO; Masashi YAMASHIRO; Motohiko TANAKA; Motoyasu SATO;
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作者单位

The Graduate University for Advanced Studies, 322-6 Oroshi, Toki 509-5292 Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类黑色金属材料;钢铁冶炼（黑色金属冶炼）（总论）;
关键词
microwave heating and sintering; powdered metals; finite element method; Joule loss; mietheory;

机译：微波加热烧结;粉末金属;有限元法;焦耳损耗;理论;

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2. BIOCHEMICAL STUDIES ON "SUB-MICROMETER PARTICLES" AT DAYA BAY I. STUDY ON CONCENTRATION, DISTRIBUTION AND CORRELATION OF TRACE METALS IN DIFFERENT SIZE FRACTIONS [J] . 中国海洋湖沼学报（英文版） . 2000,第004期

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Numerical Study of Microwave Heating of Micrometer Size Metal Particles

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