Amorphous and nanocrystalline soft magnetic alloys with a thickness amongst 0.02-0.04 mm are made by what is known as the melt spinning technique. These are referred to as “quenched soft magnetic alloys”. They are also called metal glass because of the disordered atom distribution within the materials and the irregular arrangement of the crystal. Amorphous alloys can be divided into three major classes, including Fe-based, Co-based and iron-nickel based alloys.morphous and nanocrystalline soft magnetic alloys with a thickness amongst 0.02-0.04 mm are made by what is known as the melt spinning technique.
These are referred to as “quenched soft magnetic alloys”. They are also called metal glass because of the disordered atom distribution within the materials and the irregular arrangement of the crystal. Amorphous alloys can be divided into three major classes, including Fe-based, Co-based and iron-nickel based alloys.

When comparing traditional metallic soft magnetic alloys, such as Fe-Si and permalloy, the advantages of amorphous metallic alloys are apparent. They are much easier to manufacture, they don’t lose nearly as much power, and possesses a large mechanical force. Since 1998, the Fe-based nanocrystalline alloys have swiftly been developed. They exhibit superior synthesized soft magnetic properties together with magnetostriction of 2×10-6 and small macro-magnetic anisotropy， after appropriate heat treatment. They can be used in frequencies ranging from 50Hz to hundreds of kHz.

Through nearly 20 years of development and applications, amorphous and nanocrystalline soft magnetic alloy iron cores are manufactured into various soft magnet devices. Examples include power transformers, high-frequency transformers, power factors, voltage transformers, pulse transformers, filter inductors, magnetic sensors, and power factor adjustment inductors. All of which have been widely applied to electrical power and electronic industrial departments. As a result, the miniaturization and high efficiency of electric power and its corresponding electronic machinery have been achieved.

●  Our production process of components starts with different cores that are made by of nanocrystalline or amorphous alloys.
●  Value is added to our customize design — through the winding of primary and /or secondary wire windings.