Non-oriented silicon steel with a thickness between 0.2 mm and 0.35 mm is a key material for core components of new energy vehicles, such as drive motors and on-board chargers, and directly affects the vehicle's power, economy, and reliability.   Why is silicon steel so crucial? New energy vehicle drive motors strive for miniaturization, high efficiency, and high power density. This places extremely high demands on their "heart" material—silicon steel. High frequency and low loss: When the motor rotates at high speed (up to tens of thousands of revolutions per minute), the internal magnetic field changes at a very high frequency (400-1500Hz). The thinner the silicon steel sheet, the lower the eddy current loss, the higher the motor efficiency, and the more guaranteed the driving range. Studies have shown that compared to 0.35mm silicon steel, motors using 0.30mm silicon steel can increase the high-efficiency area by more than 20%.   High magnetic flux density: High magnetic flux density means that the motor can generate a stronger magnetic field under the same current, thereby obtaining greater torque and power density, which helps to achieve motor weight reduction.   Application scenarios: New energy silicon steel with a thickness of 0.30mm-0.35mm has good cost-effectiveness, meets basic performance requirements, and is generally used in the auxiliary motors of some A0-class electric vehicles and hybrid vehicles. New energy silicon steel with a thickness of 0.25mm-0.27mm has the characteristics of balancing performance and cost, low iron loss and high magnetic induction, and is the current mainstream stator core for electric vehicle drive motors.   New energy silicon steel with a thickness of 0.20mm or less features extremely low iron loss, optimal high-frequency performance, and suitability for ultra-high speeds. It is generally used in high-performance motors with speeds ≥15000rpm.   The thinness of silicon steel is primarily to address the challenges posed by the increasing frequency of drive motors. Higher motor speeds result in higher frequencies of internal magnetic field changes, leading to significant eddy current losses in the silicon steel sheets. Using thinner silicon steel sheets (such as 0.25mm or 0.20mm) effectively suppresses eddy currents and reduces iron losses, thereby improving motor efficiency. This is crucial for extending vehicle driving range.    

Ultra-thin silicon steel (especially 0.1-0.2mm thick) is a core material for drive motors in new energy vehicles, and its technical level directly affects the efficiency, power density, and overall vehicle performance of the motor. 1. Improved energy efficiency: Generally speaking, the thinner the silicon steel sheet, the lower the eddy current loss. For example, reducing the thickness of the silicon steel sheet from 0.5mm to 0.1mm can reduce eddy current loss to 1/25 of the original. Therefore, new energy vehicle motors made of ultra-thin silicon steel can reduce energy waste and extend the driving range.   2. Power density: Thinner silicon steel allows motors to operate at higher speeds, thus increasing power density. For example, motors using 0.1mm ultra-thin silicon steel can reach speeds of up to 31,000 rpm. Motors made with ultra-thin silicon steel output more power in the same volume, or reduce motor size for the same power, contributing to vehicle weight reduction.   3.  Reduce iron loss: Iron loss is a key indicator for measuring the energy loss of silicon steel sheets. Ultra-thin silicon steel has a lower iron loss value, which can directly reduce the heat generation and energy waste during motor operation, and help improve output power and range.   Ultra-thin silicon steel is a crucial component in the performance race of new energy vehicles. As material thickness continues to decrease to 0.1mm and below, the motors in new energy vehicles will become more powerful, efficient, and compact. The development of ultra-thin silicon steel continues, with a clear trend towards thinner, higher-performance (lower iron loss, higher strength) and broader applications (expanding from new energy vehicles to low-altitude aircraft, humanoid robots, etc.).   Shungesteel now offers ultra-thin silicon steel with a thickness of 0.1-0.2 mm, suitable for use in electric motors for new energy vehicles, providing high-quality material solutions for manufacturers of high-performance electric motors for new energy vehicles.Welcome to learn more.