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(Ferro) magnetism

Back in ancient times, people discovered that magnetite crystals attract or repel each other depending on their orientation. This physical phenomenon is referred to as magnetism. The words magnetite and magnesium are both derived from Magnesia, the name of an area in the Thessaly region of Greece where magnetic stone can be found in abundance.Magnetic separation

It is the iron in the rock that is responsible for the magnetic properties of magnetite. Many iron alloys possess magnetic properties. In addition to iron, we find magnetic properties in nickel, cobalt and gadolinium as well.

Although ferromagnetic (and ferrimagnetic) materials are the only kinds with strong enough magnetic properties to be drawn to a magnet (which is why they are called ‘magnetic’), all other substances also respond weakly to a magnetic field, via one or more other types of magnetism.

Ferromagnetic materials can be divided into magnetically 'soft' materials, such as annealed iron, which can be magnetized but usually do not retain the magnetization indefinitely, and magnetically 'hard' materials that do remain magnetized. Permanent magnets are made of 'hard' ferromagnetic materials such as Alnico and ferrite, which undergo special processing in a powerful magnetic field during production to 'align' their internal microcrystalline structure, making them very resistant to demagnetization.

Objects which strongly exhibit this behaviour are called magnets. There are natural and man-made magnets (e.g. Alnico, Fernico, ferrites). All magnets have two poles, which are referred to as the north pole and the south pole. The north pole of a magnet repels the north pole of other magnets and attracts the south pole of other magnets. Two south poles also repel.

Magnetism Gripper

Because the earth has a magnetic field as well, with its magnetic south pole close to the geographic north pole and its magnetic north pole close to the geographic south pole, a free-spinning magnet will always take on a north-south orientation. The names of the poles of a magnet are derived from this phenomenon. For the sake of convenience, but nevertheless slightly confusing, the south pole of “the 'earth magnet' is called the magnetic north pole and the north pole of the 'earth magnet' is called the magnetic south pole.

Magnetic field - North and South pole

A related phenomenon is electromagnetism, which is magnetism generated by an electric current. In essence, all magnetism is caused by either rotating or revolving electrical charges in eddy currents.

electromagnetism

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Curie-Temperatur

Die Curie-Temperatur ist nach Pierre Curie (1859-1906) benannt.

magnetismus Curietemperatur

Die Curie-Temperatur ist die Temperatur bei der das permanente Magnetfeld um ferromagnetische Materialien herum verschwindet. Die Curie-Temperatur ist die Temperatur bei welcher der Magnetismus vollständig verschwindet, sobald diese überschritten wird.

Oberhalb dieser Temperatur verhält sich das Material paramagnetisch. Beim Erhöhen der Temperatur bewirkt die Temperaturbewegung ein gleitendes Durchbrechen der Spin-Ordnung. Bei Erreichen der Curie-Temperatur bricht diese Ordnung zusammen, weil die thermische Energie größer als die Energie der magnetischen Wechselwirkung geworden ist.

Es ist schwierig die Curie-Temperatur exakt zu messen. Erstens verschwindet das permanente Magnetfeld um das Material nur schrittweise. Zweitens hängt die Curie-Temperatur stark von kleinen Verunreinigungen im Material ab.

Wenn z. B. ein AlNiCo-Magnet über die Curie-Temperatur von 850 °C erwärmt wird, dann ist dieser nicht mehr ferromagnetisch. Er wird dann paramagnetisch. Wenn der Magnet wieder abgekühlt ist, kehrt das permanente Magnetfeld nicht zurück. Es ist dann wohl wieder ein Magnetfeld in kleineren Bereichen des Materials, den sogenannten Weissschen Bezirken (Weiss 1865 - 1904) vorhanden, aber diese Felder weisen in willkürliche Richtungen, sodass kein resultierendes externes Magnetfeld vorhanden ist. Es ist allerdings möglich den Magneten erneut zu magnetisieren.

Die ferromagnetischen Elemente und Legierungen mit den jeweiligen Curie-Temperaturen:

Material     Curie-Ttemp.
Fe     770°C
Co     1115°C
Ni     354°C
Gd     19°C
AlNiCo     850°C
Ferrit     450°C
Sm Kobalt     750-825°C
Nd-Fe-B     310-340°C

Magnet materials

Ferrite
magnets
 

Ferrite magnets Read more

Neodymium (Neoflux®) magnets

Neodymium Neoflux Magneten Read more

Samarium-cobalt magnets
 

Samarium Kobalt magneten Read more

Aluminum-nickel-cobalt magnets

Aluminum-nickel-cobalt magnets Read more

Plastic bonded magnets
 

Plastic bonded magnets Read more