Electromagnetic Properties Low Ironloss, High Induction Mechanical Properties Wide range yield strength,tensile strength, elongation and hardness Coating Advantage Solidified adhesion, High Insulation resistance.

General For household appliance and industry motor Stree Relief For EI transformer and air-conditioner motor High efficiency For high efficiency motor

Product Series

Product main specifications

Product main features

Product Characteristic

Low core loss and high magnetic induction

The energy consumption of the motor includes electrical steel core loss and winding copper loss. If the electrical steel sheet iron loss reduce, and magnetic induction improve, energy consumption reduce, on, and the design for reducing the magnetic emissary motor excitation current improve for reducing the consumption of copper. Therefore, low core loss and high magnetic induction can improve the efficiency and reduce the production cost for the user.

High dimensional accuracy

Giving full play to the new equipment and advanced control system to the advantage, the main product quality and size precision have reached or exceeded the domestic advanced level of enterprises. Those has reduced the number of user slice production process, ensured the motor core lamination of the height difference, improved the production and product efficiency.

Good insulation surface

The variety, process and quality of coating will influence electrical steel’s insulation, punching, welding and oil resistance, thus further influence electrical steel core loss and product properties. The coating has uniformity, high temperature resistance, adhesion and insulation performance.

Electrical steel, also known as lamination steel, is a specialized ferrous alloy engineered to possess specific magnetic properties that make it indispensable in electrical power and propulsion systems. Its primary function is to efficiently channel, concentrate, and amplify magnetic flux in devices that operate on alternating current (AC). This critical role is fulfilled by two key characteristics: high magnetic permeability and low core loss.

High magnetic permeability allows the material to support the establishment of a strong magnetic field with minimal energy input. This means electrical components can be more powerful and responsive. Simultaneously, the property of low core loss is crucial for efficiency. Core loss, which is energy dissipated as heat, is minimized through a combination of a precise silicon-aluminum alloy composition and a manufacturing process that produces thin, insulated laminations. This laminated structure specifically suppresses eddy currents, a significant source of energy waste.

These properties make electrical steel the material of choice for the cores of critical electromagnetic devices. In electric vehicles, it is fundamental to the construction of the stator and rotor within the traction motor, directly impacting torque, power density, and driving range. It is equally vital for the transformers that manage voltage conversion and the reactors that filter electrical noise. By enabling high efficiency and power density in motors, transformers, and reactors, electrical steel serves as a silent enabler of modern electrification, contributing significantly to energy conservation and performance in a wide array of technologies.