Fundamental Characteristics of a Large-Scale Cylindrical Magnetic Shield with Shaking

IEEE Translation Journal on Magnetics in Japan Pub Date : 1994-11-01 DOI:10.1109/TJMJ.1994.4565954

I. Sasada;Y. Ohnaka

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引用次数: 2

Abstract

A large-scale cylindrical magnetic shielding case was developed. It was made of permalloy (outer diameter 68 cm, length 180 cm, thickness 1.6 mm, weight approximately 60 kg) with an opening at one end and with Metglas® 2705M amorphous ribbons (width 5 cm, thickness approximately 22 μm) wound spirally about the permalloy case in 16 layers (total weight 12.1 kg) to cover the surface. A toroidal coil (36 turns) was wound around the amorphous layers to allow the creation of a magnetic shaking field. An external magnetic field was applied to the shielding case by means of a large rectangular Hemholtz coil, to evaluate the shielding factor, which was about 2700 at a frequency of 0.5 Hz when the shaking frequency was 200 Hz. At higher frequencies, it gradually dropped. The shielding factor was almost constant relative to the amplitude of the disturbing field down to 3 mG; beyond that point, a residual field could not be detected because of the limit of resolution of the flux gate magnetometer used. The leakage of the shaking field was about 30 μG at the center of the shielding case.

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大型振动圆柱形磁屏蔽的基本特性

研制了一种大型圆柱形磁屏蔽壳体。它由一端有开口的坡莫合金（外径68cm，长度180cm，厚度1.6mm，重量约60kg）和Metglas®2705M非晶带（宽度5cm，厚度约22μm）制成，螺旋缠绕在坡莫合金外壳上，分16层（总重量12.1kg）覆盖表面。环形线圈（36匝）缠绕在非晶层周围，以允许产生磁振荡场。通过大矩形Hemholtz线圈将外部磁场施加到屏蔽壳上，以评估屏蔽因子，当振荡频率为200Hz时，屏蔽因子在0.5Hz的频率下约为2700。在更高的频率下，它逐渐下降。屏蔽因子相对于低至3mG的干扰场的振幅几乎是恒定的；超过该点，由于所使用的磁通门磁力仪的分辨率限制，无法检测到残余场。振荡场在屏蔽壳中心的泄漏量约为30μG。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Translation Journal on Magnetics in Japan

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