Low-frequency magnetic shielding (MuFerro™ 6800)低频磁屏蔽
We has developed a new material for shielding / screening low frequent magnetic fields. These fields are generated by installations in which high currents flow, for example transformer rooms, power lines, busbar systems and nearby high-voltage cables.
我们已经开发了一个新材料用于屏蔽/保护低频磁场。这些场的产生通过安装在高电流场所,例如变压器室,电源线,母线系统和高压电缆附近。
Indoor transformer rooms室内变压器室
Indoor transformer rooms室内变压器室
The frequency of these magnetic fields is typically 50/60 Hz
这些磁场的频率是典型的50/60 Hz
But the MuFerro material is suitable for magnetic shielding in frequency ranges from 10 Hz to 100 KHz.
但钼-铁氧体材料适合用于磁屏蔽,频率范围从10 Hz到100 KHz.
Customer Benefits顾客利益
- Cost-effective solution 物有所值的解决
- Up to 95% field-strength reduction and more 可达95%的场强减少和更多
- Flexible design 灵活的设计
- Measurement report 测量报告
- 10-year guarantee 10年保证
MuFerro combines permeable and satiety characteristics which makes it extremely suitable for screening low-frequent magnetic fields.
钼-铁氧体结合有渗透性和饱和性特点使得它非常适合于屏蔽低频磁场。
Magnetic field strength measurement磁场强度测量 |
MuFerro钼铁氧体™ 6800 wall shielding墙屏蔽 |
Why use magnetic shielding/screening?为什么使用磁屏蔽/保护?
Magnetic fields pose a serious threat to human health and wellbeing. Scientific research has shown that exposure to magnetic fields of > 300nT or 0,003 Gauss increases one's chance of developing leukemia significantly. Moreover there are numerous other health symptoms that are associated with exposure to magnetic fields, e.g. headaches, depression, and insomnia. For this reason many countries have made the recommendation that for working spaces exposure should be < 0.5 μT=500 nT and for public spaces it should be < 0.1 μT=100nT.
Apart from their negative impact on health, strong magnetic fields can disturb or damage electronics in the direct surroundings of the field. In addition, magnetic fields disturb sensitive measurements in hospitals and laboratories.
磁场提出了一个严肃威胁对于人类健康和幸福。科学研究已经显示了暴露到300nT或0.003 Gauss的磁场增加一个人发展成白血病的机会,这是值得注意的。而且有许多其它的健康状况与暴露到磁场有关,例如头痛,抑郁,和失眠等。因为这个原因许多国家已经做出劝告,工作场所暴露应该是< 0.5 μT=500 nT和对于公共场所它应该是 < 0.1 μT=100nT.除去它们在健康方面的负面影响,在直接的场环境里强磁场能干扰或损坏电子设备。另外,磁场干扰敏感性测量在医院和实验室里。