The temperature has a direct impact on the magnetic permeability of silicon steel. At lower temperatures, the silicon steel exhibits a high magnetic permeability, indicating its easy magnetization and strong ability to retain a magnetic field. However, as the temperature rises, the magnetic permeability declines. This decline is attributed to the rise in thermal energy, which disturbs the alignment of the magnetic domains within the silicon steel. Consequently, the steel's magnetization capability and its capacity to retain a magnetic field decrease. Hence, the magnetic permeability of silicon steel declines as the temperature increases.
The magnetic permeability of silicon steel varies with temperature. At low temperatures, the magnetic permeability of silicon steel is high, meaning it is more easily magnetized and can retain a stronger magnetic field. As the temperature increases, the magnetic permeability decreases. This is due to the increase in thermal energy, which causes the alignment of the magnetic domains within the silicon steel to become disrupted, leading to a decrease in its ability to be magnetized and retain a magnetic field. Therefore, the magnetic permeability of silicon steel decreases with increasing temperature.
The magnetic permeability of silicon steel generally decreases with increasing temperature.
