Magnetostriction – what is it, how to check?
Although the phenomenon of magnetostriction has been known for many years, it still fascinates scientists, who have only recently begun to find practical applications for it. The first observations were made by British physicist James Joule in 1842. While observing the magnetization of steel and iron, he noticed that under the influence of a magnetic field, the materials under investigation underwent deformation. Almost two centuries have passed since then, and yet this phenomenon has not been fully explored, and new applications are still being found for it. The inverse effect is called the Villari effect – in this case, changes in external dimensions affect changes in magnetic properties. For many years, magnetostriction had no practical application. This was because traditional materials such as cobalt, nickel, or iron deformed to a very small extent. A magnetostriction coefficient of 0.05% was too low to be practically utilized, as there were no such strong magnetic fields. Modern materials, developed in the second half of the 20th century, have greatly changed the possibilities of using magnetostriction, allowing for a coefficient of about 0.2%. They are based on rare earth elements such as dysprosium and terbium, in various percentage compositions. Currently, the most commonly used alloy contains 67.5% Fe, 9.6% Tb, and 22.9% Dy.
Practical applications of magnetostriction
Metal alloys with a high magnetostriction coefficient are used in many specialized applications. Due to their properties, they present an interesting alternative to piezoelectrics, both in industry and scientific research. They are primarily used in various types of sensors and detectors. Motion, force, or magnetic field sensors, hydraulic pumps, or fuel injection valves are just some of the places where they excel. But they can also be found in hydraulic pumps, ultrasonic cleaners, sonars, or seismographs. An interesting application of these materials is also in ultrasonic generators. And if they are combined with a special piston, they can serve as pumps, pumping liquid under the action of oscillatory movements. All of the above applications allow for high precision and accuracy, which is why they are used in specialized equipment. However, in some cases, magnetostriction is undesirable, and it must be somehow eliminated. This mainly occurs in electrical devices, such as transformers or inductive chokes, in which an acoustic wave is generated. Limiting such noise is a significant challenge for engineers and requires the use of modern materials and design methods.
Magnets in automotive
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czwartek 2020-01-02T18:00:00