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Thermal Effects of Electromagnetic Energy on Skin in Contact with Metal: A Numerical Analysis

机译:电磁能对金属接触皮肤的热效应:数值分析

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It has been well recognized that interactions between electromagnetic fields and metals are very strong. The consequence of human tissue in contact with metal, when subjected to an alternating electromagnetic field, is an increase in tissue temperature, which results from metals absorbing the energy obtained through induction. However, the electromagnetic induction characteristics and tissue energy absorbed caused by various electromagnetic field exposure conditions have not been well understood. A computational model was developed and employed in this study to assess the temporal and spatial temperature increases in skin due to contact with a highly conductive metallic plate while subjected to a high-intensity electromagnetic field. The effects of plate material, plate thickness, coil distance, and exposure time on temperature increase in the skin were computationally investigated. The electromagnetic and temperature distributions in skin layers during exposure to electromagnetic fields were achieved using models of electromagnetic wave propagation and an unsteady bioheat transfer. The modeling approach used indicates that the plate thickness, plate material, coil distance, and exposure time have a significant impact on the temperature change in the skin. The most important parameter was found to be the metal type. Iron has the greatest effect on skin temperature increase when subjected to external electromagnetic induction. These results allow the researchers to estimate more precisely the exposure limits for induction coils.
机译:众所周知,电磁场和金属之间的相互作用非常强烈。当受到交变电磁场时,人体组织与金属接触的后果是组织温度升高,这是由于金属吸收通过感应获得的能量造成的。然而,各种电磁场暴露条件引起的电磁感应特性和组织能量吸收尚未得到很好的了解。本研究开发并采用了一种计算模型,以评估在高强度电磁场下与高导电金属板接触时皮肤温度升高的时间和空间温度升高。计算研究了板材、板厚、卷材距离和暴露时间对皮肤温度升高的影响。暴露于电磁场期间皮肤层的电磁和温度分布是使用电磁波传播和不稳定生物热传递模型实现的。所采用的建模方法表明,板厚、板材材料、线圈距离和曝光时间对皮肤温度变化有显著影响。发现最重要的参数是金属类型。铁在外接电磁感应下对皮肤温度升高的影响最大。这些结果使研究人员能够更精确地估计感应线圈的暴露限值。

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  • 1. THERMAL BI-METAL [P] . 外国专利: SU1601179A1 . 1990-10-23

    机译:thermal BI-metal

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