The low coercive force of amorphous nanocrystalline materials has significant advantages in many fields such as energy, electronics, and communications. The specific details are as follows: 

Ⅰ. Energy field 

1. Power transmission: 

In power transformers, the low coerciveness of amorphous nanocrystalline materials Stubborn forces can greatly reduce the energy consumed by materials during magnetization and demagnetization, reduce hysteresis loss, improve the power transmission efficiency of transformers, and reduce energy waste during power transmission, which is of great significance to improving the overall energy efficiency of the power grid. 

2. New energy power generation: 

In the inverters of wind power generation and photovoltaic power generation, low-coercive amorphous nanocrystalline materials can allow magnetic components to respond quickly under high-frequency conditions, efficiently convert electricity, and reduce Energy loss during the conversion process improves the overall efficiency and stability of the new energy power generation system. 

Ⅱ. Electronic field 

1. Miniaturized electronic equipment:

For magnetic components such as inductors and transformers in miniaturized electronic equipment such as mobile phones and tablets, the low coercive force of amorphous nanocrystalline materials makes it possible to be within a smaller volume. Achieve efficient magnetic energy conversion helps electronic devices develop in a lighter and higher performance direction. 

2. Power management: 

Among all kinds of power adapters and switching power supplies, low coercive amorphous nanocrystalline materials can quickly charge and demagnetize magnetic components, improve the switching frequency and conversion efficiency of the power supply, and reduce the volume and weight of the power supply. , while reducing heat generation and improving the stability and reliability of the power supply.

Ⅲ. Communication field 

1. Signal processing: 

In magnetic devices such as filters and couplers of communication base stations, the low coercivity of amorphous nanocrystalline materials can ensure that the signal can be quickly and accurately converted into magnetoelectric during transmission, reducing Signal distortion and loss improve signal transmission quality and efficiency. 

2. Wireless charging: 

In wireless charging devices, low coercive amorphous nanocrystalline material is used as the magnetic core, so that the coils at the transmitter and receiver can achieve efficient power transmission with lower energy losses during the magnetic field coupling process. , improve the efficiency and power transmission distance of wireless charging. 

Ⅳ. Other fields 

1. Motor manufacturing: 

In motors, low coercive amorphous nanocrystalline materials can make the motor core more likely to magnetize and demagnetize when the magnetic field changes, reduce the motor's iron loss, and improve the motor's efficiency and power. Density is of great significance to improving the performance of new energy vehicle motors, industrial servo motors, etc. 

2. Sensor: 

In magnetic sensors, the low coercive force of amorphous nanocrystalline materials makes it highly sensitive and fast response to weak magnetic field changes, which can accurately detect and convert magnetic field signals, and improve the measurement accuracy and reliability of the sensor. , widely used in the measurement of physical quantities such as displacement, velocity, angle, etc.