The iron loss of 50WW800 is higher (8.0W/kg), and it is suitable for scenarios with low energy consumption requirements, such as ordinary small and medium-sized motors and low-power transformers. The iron loss of the 50WW600 is lower (6.0W/kg), and it has better energy efficiency. It is suitable for equipment with high energy-saving requirements, such as high-efficiency motors and variable-frequency motors.
Generally, the lower the iron loss of silicon steel, the higher the silicon content (silicon can increase magnetic permeability and reduce iron loss), but an increase in silicon content will lead to an increase in material hardness and brittleness, making processing slightly more difficult. The silicon content of 50WW600 May be slightly higher than that of 50WW800, making it more suitable for scenarios where both loss and processability need to be taken into account.
Typical application fields 50WW800: Washing machine motors, fan motors, general industrial transformers, etc. 50WW600: Air conditioning compressor motors, servo motors, high-efficiency energy-saving transformers, etc.
Extended Knowledge: The development trend of non-oriented silicon steel With the increasing demand for high-efficiency motors in fields such as new energy vehicles and industrial automation, non-oriented silicon steel with lower iron loss and higher magnetic induction (such as 50WW470, 50WW350, etc.) is increasingly widely used. Meanwhile, the demand for thin-gauge (such as 0.25mm, 0.18mm) silicon steel in high-frequency scenarios (such as servo motors, high-frequency transformers) is also on the rise, driving the material towards the direction of "low loss, high magnetic induction, and thin specifications".
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