The main components of the amorphous material 1K101 are iron Fe, silicon Si, and boron B. After being smelted and melted in a certain proportion, it is sprayed into a thin strip of 25-30 μm at a cooling rate of 106 ℃ seconds. Due to its rapid cooling, its Atoms are too late to be arranged in an orderly lattice structure to form an amorphous state. Compared with traditional metal magnetic materials, because amorphous alloys have disorderly arrangement of atoms, no crystal anisotropy, and high resistivity, they have high Magnetic permeability, low loss, high saturation magnetic flux density, is an excellent soft magnetic material. It is widely used to replace silicon steel, permalloy and ferrite as transformer cores, transformers, sensors, etc., which can greatly improve transformer efficiency, reduce volume, reduce weight, and reduce energy consumption.
The material used to produce the amorphous C-type magnetic core is 1K101. The amorphous C-type magnetic core has the advantages of simple structure, convenient coil assembly, and convenient inductance adjustment as the traditional C-type iron core. It is in the frequency range of 5KHz-20KHz. With its high magnetic permeability and low iron loss characteristics, it is widely used as filter inductors in inverter circuits in the solar photovoltaic industry. With the rise of the green energy industry, the market prospects are huge.
amorphous c core
The material used to produce the amorphous C-type magnetic core is 1K101. The amorphous C-type magnetic core has the advantages of simple structure, convenient coil assembly, and convenient inductance adjustment as the traditional C-type iron core. It is in the frequency range of 5KHz-20KHz. With its high magnetic permeability and low iron loss characteristics, it is widely used as filter inductors in inverter circuits in the solar photovoltaic industry. With the rise of the green energy industry, the market prospects are huge.
amorphous c core