M2 grain oriented silicon steel is primarily composed of iron and silicon, with small amounts of carbon and other alloying elements. This unique combination is meticulously processed to induce a grain orientation that aligns with the direction of rolling, thereby optimizing its magnetic properties. It can maximize magnetic flux density and minimize core losses, making M2 silicon steel highly efficient for various electrical applications.
Product Name | M2 Grain Oriented Silicon Steel |
Standard | AISI, ASTM, GB, JIS, DIN |
Thickness | 0.18 – 0.65 mm |
Processing Service | bending, uncoiling, welding, punching, and cutting |
Supply Ability | 50000 Ton/per month |
1. High Silicon Content
M2 Grain oriented electrical steel usually has a silicon level of 3%, which contributes to its optimal magnetic properties and low anisotropy in magnetic characteristics.
2. Directional Crystal Structure
Its grain orientation aligns with the direction of rolling, which can optimize its magnetic properties for specific applications where the flux is oriented in a particular direction.
3. Exceptional Magnetic Properties
M2 Grain oriented silicon steel possesses exceptional magnetic properties, making it an indispensable component in the production of transformers and other electrical devices. It can be embodied in the following three aspects:
– High Magnetic Permeability: M2 grain oriented silicon steel is characterized by high magnetic permeability, allowing for efficient flux linkage and optimal performance in electrical devices.
– Low Core Loss: The material demonstrates low core loss, minimizing energy dissipation and enhancing overall efficiency in transformers and electrical machines.
– High Saturation Magnetization: With its high saturation magnetization, M2 grain-oriented silicon steel maintains performance across varying magnetic field strengths, ensuring consistent and reliable operation.
4. Excellent Electrical Resistivity
This material offers excellent electrical resistivity, contributing to reduced eddy current losses and ensuring efficient operation in electrical devices.
5. Mechanical Strength
M2 Grain oriented silicon steel possesses robust mechanical strength, enabling its use in demanding environments while maintaining structural integrity.
6. Corrosion Resistance
It exhibits good resistance to corrosion, ensuring long-term reliability and longevity in various electrical applications.
7. Excellent Thermal Stability
It offers excellent thermal stability, making it an ideal material for transformers, motors, and other electrical devices.
M2 Grain oriented silicon steel finds widespread applications across various domains within electrical engineering due to its exceptional magnetic properties and efficiency. Some of its primary applications include:
1. Transformers
It serves as a fundamental material in the construction of distribution transformers, power transformers, instrument transformers, etc. Its high magnetic permeability and low core loss contribute to enhanced transformer efficiency, making it an ideal choice for these critical electrical devices.
2. Electrical Machines
The material can be utilized in the production of electric motors, generators, and other electrical machines where optimized magnetic properties are essential for efficient operation and energy conservation.
3. Renewable Energy Systems
In the renewable energy sector, M2 grain oriented silicon steel plays a vital role in the development of high-efficiency systems such as wind turbine generators, hydroelectric generators, and solar inverters, contributing to the advancement of sustainable energy practices.
4. Smart Grids
With the increasing integration of smart grid technologies, M2 GO silicon steel is employed in the construction of transformers and components that form the backbone of intelligent power distribution networks, ensuring reliable and efficient electricity transmission.
5. Electric Vehicles
As the demand for electric vehicles continues to rise, it is finding application in the production of traction motors and related components, contributing to the development of high-performance and energy-efficient electric propulsion systems.
6. Industrial Power Systems
Within industrial settings, the material is used in the creation of efficient power distribution systems, enabling reliable and cost-effective electricity management in diverse manufacturing and processing operations.
7. Energy Storage Systems
M2 grain oriented silicon steel is integrated into the construction of transformers and components for energy storage systems, facilitating efficient energy transfer and management within grid-scale and distributed energy storage solutions.