How to Select the Right Amorphous Core for Your Application
Date: Aug 14th, 2024
Read:
Share:
Choosing the right amorphous core is critical to the performance of your application. Here are a few key factors to consider when selecting an amorphous core: The magnetic properties of amorphous materials are an important factor in determining the effectiveness of their application in equipment such as transformers. Amorphous metals typically have low coercivity and high permeability, which is critical for minimizing energy loss. Therefore, when selecting an amorphous core, it is important to ensure that the selected material has excellent magnetic properties for optimum efficiency. Transformers operate under varying thermal conditions, so the thermal stability of the amorphous core is a key consideration. Standard models of amorphous alloy distribution transformers are typically characterized by high thermal stability, corrosion resistance and high-temperature strength, enabling them to perform well in a variety of extreme environments. Amorphous strips are suitable for a wide variety of applications including distribution transformers, medium frequency transformers, high frequency switching power transformers, pulse transformers, mutual inductors, filter inductors and reactors, common mode inductors, magnetic amplifiers and saturation inductors, sensors, and more. Choose the right type of amorphous strip for your specific application needs. The main components of amorphous alloys include metallic raw materials such as iron, boron and silicon, which are sheared, molded and heat-treated to make amorphous cores. The composition and physical properties of these materials directly affect the performance of the amorphous core, so these factors should be taken into account in the selection.