All About Shielding - FAQ's

How do Magnetic Shields work? (PDF - 76 KB)

What is a magentic field? (PDF - 107 KB)

Magnetic Fields & Shields Overview? (PDF - 95 KB)

How do you measure magnetic fields in Gauss? (PDF - 21 KB)

What is magnetic permeability? (PDF - 70 KB)

What do we mean by a ferromagnetic material being magnetically soft? (PDF - 71 KB)

Will a magnetic shield block the fields effects? (PDF - 69 KB)

Does cutting the alloy destroy its properties? (PDF - 69 KB)

Should the source of interference or the sensitive device be shielded? (PDF - 65 KB)

What are the issues using magnetic shielding material at high vacuum? (PDF - 69 KB)

What effect does heating the magnetic material have? (PDF - 71 KB)

What effects does cryogencially cooling the magnetic material have? (PDF - 100 KB)

How can I shield one magnet so it doesn't interact with another? (PDF - 16 KB)

What are the frequency ranges of electromagnetic inteference (EMI)
and electromagnetic compatibility (EMC)? (PDF - 72 KB)

What is the difference between a DC and AC field? (PDF - 69 KB)

What is the differernce between RF and Magnetic Shielding? (PDF - 70 KB)

Why are both the ferrite Netic S3-6 and the nickle alloy Co-Netic AA offered? (PDF - 70 KB)

Why is CO-NETIC AA alloy offered in both Perfection and Stress Annealed? (PDF - 71 KB)

What is MuMETAL? (PDF - 68 KB)

Why is MuMetal® offered? (PDF - 69 KB)

Why must MuMetal® alloy be final annealed? (PDF - 70 KB)

Magnetic Shield Slide-Rule Calculator? (PDF - 143 KB)

What are the manufacturing and design considerations for fabricating shielding? (PDF - 27 KB)

Magnetic Shielding Realities? (PDF - 82 KB)

What do you suggest to shield a room? (PDF - 26 KB)

How do I measure a magnetic field with an EP Probe? (PDF - 21 KB)

INTER-8 vs. twisted-pair? (PDF - 75 KB)

What do you offer in mica? (PDF - 534 KB)

Where may I get a copy of Magnetic Shield's ISO certification? (PDF - 532 KB)

Commerce related questions? (PDF - 76 KB)

How do I use the single axis AC Magnetic Field Meter #EF-401? (PDF - 76 KB)

Glossary

Annealing: The treatment of a metal, alloy, or other material by heating to a predetermined temperature, holding for a certain time, and then cooling to room temperature.

Attenuation: A ratio used to measure the effectiveness of a given shield. The ratio is expressed as the field strength at a given point vs. the resulting field strength at the same point with a magnetic shield in place. A shield which provides a reduction of 100 times has an attenuation of 100:1.

Coercive Force: The magnetic force necessary to demagnetize a substance. Also called coercivity.

Curie Point: Temperature at which magnetism changes; the temperature at which in some substances, such as iron, there is a change in the magnetic characteristics, from ferromagnetic to paramagnetic behavior.

D/C Field: A magnetic field that is non-varying, or perhaps slowly changing. DC fields might be from the Earth, a permanent magnet, or a coil carrying direct current.

Electromagnetic Field (EMF): A field of force associated with a moving electric charge and consisting of electric and magnetic fields that are generated at right angles to each other.

Electromagnetic Interference (EMI): Interference caused by the radiation of an electric or magnetic field.

ELF: Stands for Extremely Low Frequency usually referring to magnetic fields at 0.5 to 100 Hertz.

Ferromagnetism: strong magnetization induced by weak field: a property of some substances, including iron and some alloys, in which application of a weak magnetic field within a certain temperature range induces high magnetism.

Ferromagnetic: With the property of ferromagnetism. Iron, cobalt, and nickel are ferromagnetic metals.

Flux: The strength of a magnetic field represented by lines of force. Symbol f

Frequency: The frequency of a magnetic field, measured in cycles per second (Hz), is usually the same as the operating frequency of the field's source.

Gauss: The number of magnetic lines of force (flux) emitted per square centimeter.

Induction: Refers to magnetic lines of force….see Magnetic Flux Density.

Magnetic Field Strength: Describes the intensity of a magnetic field in free space*. (*at some distance from its source)

Magnetic Flux Density: Describes the concentration of magnetic lines of force in a material.

MuMETAL®: A registered trade name for a high-permeability alloy used for magnetic shielding. It is made up of 80% nickel, 15% iron, and a balance of other metals depending upon the particular formula.

Paramagnetic: Used to describe a substance that is weakly magnetized so that it will lie parallel to a magnetic field.

Permeability: Refers to a materials ability to attract and conduct magnetic lines of flux. The more conductive a material is to magnetic fields, the higher its permeability.

Oersted: A unit (symbol Oe) of magnetic field strength. It is equal to a force of one dyne acting upon a unit magnetic pole in a vacuum.

Saturation: The limiting point of a material to conduct additional lines of flux. The saturation and permeability characteristics of most ferromagnetic materials are inversely related, therefore the higher a material's permeability, the lower its saturation point.

Shield: Something that serves as protection or acts as a defense.