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NdFeB Magnet AlNiCo Magnet SmCo Magnet Magnetic Pot Magnet Lifter Magnetic Filter Equipment

Materials MGOe Range
Sintered NdFeB (Neodymium Iron Boron)
33-52
SmCo (Samarium Cobalt)
16-30
Bonded NdFeB (Neodymium Iron Boron)
2-13
AlNiCo (Aluminum Nickel Cobalt)
1.5-6
Ceramic (Ferrite)
0.8-4.5
Flexible (Rubberized Magnets)
0.5-1.6

Magnet Information

In general, there are four families of magnets available commercially. Factors such as operating temperature, demagnetizing effects, field strength, environmental characteristics, and available space for movement etc. need to be considered before selecting a magnet for a reed switch or reed sensor application. An overview of each of the families of magnets is given below.

NdFeB

Highest energy product
Very high remanance and coercivity
Relatively low priced
Mechanically stronger than SmCo
Some grades can be used up to 230°C
Not recommended in Hydrogen atmosphere
Bonded types can be machined but not tapped

SmCo

High energy product
Suitable for high performance applications
High resistance to demagnetization
Excellent thermal stability
High corrosion resistance
Most expensive magnet
Can be used up to 300°C
Prone to chipping - should not be used as a structure

AlNiCo

Cheaper than rare earth magnets
Highest working temperature of 550°C
Lowest temperature coefficient
Low coercivity when compared to other types
High induction levels

Ferrites

Brittle
Poor thermal stability
Cheapest of all types
Can be used up to 300°C
Needs grinding to meet tight tolerances
High corrosion resistance

Cost
Ferrite
AlNiCo
NdFeB
SmCo
Energy
Ferrite
AlNiCo
SmCo
NdFeB
Operating Temperature
NdFeB
Ferrite
SmCo
AlNiCo
Corrosion Resistance
NdFeB
SmCo
AlNiCo
Ferrite
Resistance to Demagnetization
AlNiCo
Ferrite
NdFeB
SmCo
Mechanical Strength
Ferrite
SmCo
NdFeB
AlNiCo
Temperature Coefficient
AlNiCo
SmCo
NdFeB
Ferrite

Units Conversion Table

Property
CGS Unit
SI Unit
Conversion Factor
Magnetic Flux
Maxwell
Weber
1 Weber = 106 Lines
Flux Density (B)
Gauss
Tesla
1 Tesla = 104 Gauss
Magnetomotive force
Gilbert
Ampere-turn (AT)
1 Gilbert = 0.796 AT
Magnetizing force field (H)
Oersted
Ampere-turn / metre
1 Oersted = 79.577 AT / m

Links

Links

Liens

Links

  • Meer weten over het materiaal, waarvan onze magneten gemaakt zijn?
    Wikipedia vertelt u alles over     neodymium en over magnetisme in het algemeen
  • Voor jong en oud ;-): Bekijk de 'Klokhuis'-aflevering van 20 juli 2005 over (super)magnetisme. Onder andere met een bezoek aan het Hoge Magneetvelden Laboratorium van de Universiteit Nijmegen, met supermagneten die - we geven het toe - nog sterker zijn dan de onze...
  • Ook NCRV's 'Willem Wever' was op bezoek bij een deskundige van het Nijmeegse Laboratorium met de vraag: Hoe werkt een magneet? Een leuke inleiding voor kinderen.
  • Lesideeën rond het thema supermagneten uit het onderwijstijdschrift 'Impuls'

Ссылки

Link

  • Un artista da seguire da vicino; guardate il Suo sito e scoprite le sue meravigliose creazioni! Alcune sono anche fatte con i nostri magneti.

Where are the North and South poles on these magnets?

http://www.emovendo.net/help.php?section=FAQ

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