Silicon steel exhibits an electrical resistivity typically falling within the range of 45 to 55 micro-ohm centimeters (μΩ·cm). Its resistivity, which is relatively low, endows silicon steel with excellent electrical conductivity, enabling efficient transmission of power and facilitating magnetic applications. The incorporation of silicon into steel diminishes its resistivity while enhancing its conductivity, rendering it exceptionally suitable for deployment in transformers, motors, and various electrical apparatuses that prioritize minimal energy dissipation and superior magnetic permeability.
The electrical resistivity of silicon steel typically ranges from 45 to 55 micro-ohm centimeters (μΩ·cm). This relatively low resistivity makes silicon steel a good conductor of electricity, allowing for efficient power transmission and magnetic applications. The addition of silicon to steel reduces its resistivity by increasing its conductivity, making it ideal for use in transformers, motors, and other electrical devices where low energy loss and high magnetic permeability are desired.
The electrical resistivity of silicon steel is typically around 45-55 micro-ohm centimeters.
