How did the history of magnetic shielding begin?

03.08.2024|Dariusz Ostrowski

The history of magnetic shielding dates back to the 19th century when the first attempts to protect devices from magnetic fields began with the development of electromagnetism. Engineers and scientists started experimenting with various materials to understand how to effectively block or redirect magnetic field lines to protect sensitive devices.

The development of technology and the discovery of MuMetal

One of the breakthrough moments in the history of magnetic shielding was the discovery of MuMetal in the 1940s. MuMetal is an alloy primarily composed of nickel and iron, characterized by very high magnetic permeability, making it an ideal material for magnetic shielding. Thanks to MuMetal, it became possible to effectively redirect magnetic field lines around protected devices, minimizing the impact of magnetic interference.

Applications of magnetic shielding in modern technologies

Magnetic shielding is widely used in various fields, from protecting sensitive electronic devices such as computers and smartphones to advanced medical technologies like MRI (Magnetic Resonance Imaging). In the aerospace and aviation industries, magnetic shielding is crucial to ensure that sensitive navigation and communication instruments operate without interference.

How does magnetic shielding work?

Magnetic shielding works by using materials with high magnetic permeability that 'collect' magnetic field lines, directing them around the protected area. This prevents magnetic field lines from penetrating the shielded area, allowing protection of sensitive components. MuMetal is one of the most commonly used materials for magnetic shielding due to its ability to effectively block low and medium-frequency fields.

Challenges and the future of magnetic shielding

Although magnetic shielding is effective, there are challenges associated with protecting against strong, high-frequency magnetic fields. Research is currently underway on new materials and shielding methods that could improve effectiveness in more demanding conditions. The future of magnetic shielding may include new alloys and composites that will perform even better in shielding a wide range of magnetic fields.

Summary

Magnetic shielding plays a crucial role in protecting devices from external magnetic fields. From its beginnings in the 19th century to contemporary applications using advanced materials like MuMetal, magnetic shielding continues to evolve to meet growing technological demands. In the future, we can expect even more advanced solutions that will provide better protection in various applications.

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FAQ - Good to know

How to stop a magnet?

A magnetic field cannot be 'blocked' like light. It can only be redirected using high-permeability materials (like steel or mu-metal) which act as a 'highway' for field lines.

What is Mu-Metal?

Mu-Metal is a special nickel-iron alloy with extremely high magnetic permeability. It is best for shielding weak fields and sensitive electronics, but it is expensive and sensitive to shocks.

How to safely transport strong magnets?

The key is distance and steel. The magnet must be far from the package walls (distance), and the whole package should be wrapped in steel sheet which will 'collect' the residual magnetic field.

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#magnetic shielding#magnetism#technology

sobota 2024-08-03T18:00:00

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