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Ferromagnetism01:31

Ferromagnetism

Materials like iron, nickel, and cobalt consist of magnetic domains, within which the magnetic dipoles are arranged parallel to each other. The magnetic dipoles are rigidly aligned in the same direction within a domain by quantum mechanical coupling among the atoms. This coupling is so strong that even thermal agitation at room temperature cannot break it. The result is that each domain has a net dipole moment. However, some materials have weaker coupling, and are ferromagnetic at lower...
Diamagnetism01:26

Diamagnetism

Materials consisting of paired electrons have zero net magnetic moments. However, when these materials are placed under an external magnetic field, the moments opposite to the field are induced. Such materials are called diamagnets. Diamagnetism is the response of the diamagnets when placed in an external magnetic field.
Diamagnetism was discovered by Anton Brugmans in 1778 when he observed that bismuth gets repelled by magnetic fields, thus theorizing that diamagnets get repelled by magnets.
Magnetic Fields01:28

Magnetic Fields

A moving charge or a current creates a magnetic field in the surrounding space, in addition to its electric field. The magnetic field exerts a force on any other moving charge or current that is present in the field. Like an electric field, the magnetic field is also a vector field. At any position, the direction of the magnetic field is defined as the direction in which the north pole of a compass needle points.
A magnetic field is defined by the force that a charged particle experiences...
Magnetism01:30

Magnetism

Magnets are commonly found in everyday objects, such as toys, hangers, elevators, doorbells, and computer devices. Experimentation on these magnets shows that all magnets have two poles: one is labeled north (N) and the other south (S). Magnetic poles repel if they are alike and attract if unlike. Moreover, both poles of a magnet attract unmagnetized pieces of iron.
An individual magnetic pole cannot be isolated. No matter how small, every piece of a magnet contains a north pole and a south...
Magnetic Susceptibility and Permeability01:31

Magnetic Susceptibility and Permeability

In linear magnetic materials, like paramagnets and diamagnets, magnetization is proportional to the magnetic field intensity. The constant of proportionality, a dimensionless number, is called magnetic susceptibility. The value of the susceptibility depends on the type of material.
When diamagnetic materials are placed under an external magnetic field, the moments opposite to the field are induced. Hence, the susceptibility for diamagnets has a minimal negative value of 10-5–10-6. Since...
Eddy Currents01:25

Eddy Currents

Since eddy currents occur only in conductors, magnets can separate metals from other materials. For example, in a recycling center, trash is dumped in batches down a ramp, beneath which lies a powerful magnet. Conductors in the trash are slowed by eddy currents, while nonmetals in the trash move on, separating from the metals. This works for all metals, not just ferromagnetic ones.
Other major applications of eddy currents appear in metal detectors and the braking systems of trains and roller...

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Optimizing Magnetic Force Microscopy Resolution and Sensitivity to Visualize Nanoscale Magnetic Domains
07:42

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Published on: July 20, 2022

Nuevas aleaciones magnéticas.

G Y Chin

    Science (New York, N.Y.)
    |May 23, 1980
    PubMed
    Resumen

    Descubra los avances en aleaciones magnéticas, incluidos los imanes de cobalto de tierras raras de alto rendimiento, los imanes de cromo-cobalto-hierro rentables y los aceros de silicio energéticamente eficientes para transformadores.

    Área de la Ciencia:

    • Ciencia de los materiales Ciencia de los materiales.
    • Física del estado sólido Física del estado sólido
    • El magnetismo es el magnetismo.

    Sus antecedentes:

    • Las aleaciones magnéticas tradicionales se enfrentan a limitaciones en el rendimiento y el costo.
    • Existe una necesidad continua de nuevos materiales magnéticos con propiedades mejoradas.

    Objetivo del estudio:

    • Para resaltar los avances recientes en el desarrollo de aleaciones magnéticas.
    • Presentar nuevos materiales con propiedades magnéticas mejoradas y costos reducidos.

    Principales métodos:

    • Caracterización de los imanes permanentes de tierras raras y cobalto.
    • Evaluación de las propiedades y formabilidad de los imanes permanentes de cromo-cobalto-hierro.
    • Evaluación de la pérdida de núcleo en aceros de silicio orientado a granos de alta inducción.

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    Principales resultados:

    • Los imanes de cobalto de tierras raras logran productos de energía de hasta 240 kJ/m3.
    • Los imanes de cromo-cobalto-hierro ofrecen propiedades similares a las de Alnico con un contenido reducido de cobalto y una ductilidad mejorada.
    • Los aceros de silicio orientados al grano muestran una reducción del 20% en la pérdida de núcleo en comparación con las clases convencionales.

    Conclusiones:

    • Las nuevas aleaciones magnéticas ofrecen mejoras significativas en rendimiento, rentabilidad y eficiencia energética.
    • Estos desarrollos allanan el camino para aplicaciones avanzadas en diversas industrias.
    • La investigación adicional sobre estos materiales puede conducir a innovaciones aún mayores en tecnologías magnéticas.