Study of Magnetic Shielding in Conductors Materials as a Function of the Frequency.

Study of Magnetic Shielding in Conductors Materials as a Function of the Frequency.

This study describes the effect of a uniform magnetic field in conductive materials, and how they shieldthe magnetic field that travel through them. In order to create such a field, two coilis are energized by a sinusoidal signal produced by a signal generator with a difference of potential...

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Bibliographic Details
Main Authors: Torres Velásquez, J. A., Viáfara Avila, R. R., Chacón Cardona, C. A.
Format: Online
Language:spa
Published: Universidad Pedagógica y Tecnológica de Colombia 2016
Subjects:
Apantallamiento magnético
campo magnético
eficiencia
tensión
frecuencia. (Efficiency
Frequency
Magnetic Shielding
Magnetic Field
Voltage.)
Online Access:https://revistas.uptc.edu.co/index.php/ciencia_en_desarrollo/article/view/4231
Description
Summary:This study describes the effect of a uniform magnetic field in conductive materials, and how they shieldthe magnetic field that travel through them. In order to create such a field, two coilis are energized by a sinusoidal signal produced by a signal generator with a difference of potential of 10 [Vp]. The magnetic field measurement is performed indirectly by placing a coil as a sensor in the center of a larger diameter coil, performing the tension difference of potential measurement on the sensor,in such way that by placing a shielding material that encloses the coil and its sensor, the magnetic field inside is reduced, therefore also diminishes the induced tension in the coil. The shielding materials used were steel, aluminum, iron and copper, the efficiency of these materials was studied in a frequency range from 60 to 100.000 Hz, resulting that iron is more efficient than the others from 60 to 12.000 Hz, and for 32.000-100.000 Hz the best shielding material, was copper.