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Low Loss: It has relatively low iron loss, which can effectively reduce the energy loss during the operation of motors and transformers and improve energy utilization efficiency.

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27QK095 grain-oriented silicon steel

Low Iron Loss: In an alternating magnetic field, losses such as eddy currents and molecular friction generated during the reversal of magnetic domains are relatively small, which can effectively reduce the energy loss of electrical equipment and improve the operating efficiency of the equipment.

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27QK100 grain-oriented silicon steel

High Magnetic Induction: Under the action of a magnetic field, it can generate a relatively strong magnetic induction intensity, effectively improving the working efficiency of electromagnetic equipment.prove the operating efficiency of the equipment.

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27QK110 grain-oriented silicon steel

Low Iron Loss: Under the action of an alternating magnetic field, the energy loss generated during the reversal of magnetic domains is extremely low, effectively reducing the no-load losses and operating costs of transformers and other equipment.

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27QK120 grain-oriented silicon steel

Low Iron Loss: In an alternating magnetic field, the energy loss generated when magnetic domains reverse is extremely small, which can significantly reduce the no-load losses and operating costs of transformers and other equipment.

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27QK130 grain-oriented silicon steel

Low Iron Loss: In an alternating magnetic field, the energy loss caused by the reversal of magnetic domains is quite low, which can effectively cut down the no-load losses and operating costs of transformers and other equipment.

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23GK075 grain-oriented silicon steel

Low Iron Loss: The loss caused by the reversal of magnetic domains in an alternating magnetic field is low, which can effectively reduce the no-load losses of transformers and other equipment and cut down the operating costs.

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23GK080 grain-oriented silicon steel

Low Iron Loss: In an alternating magnetic field, the energy loss generated during the reversal of magnetic domains is relatively low, which can effectively reduce the no-load losses of transformers and other electrical equipment and lower the operating costs.

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23GK085 grain-oriented silicon steel

High Magnetic Induction: Under a given magnetic field intensity, the 23-085 grain-oriented silicon steel can generate a relatively strong magnetic induction intensity.

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23GK090 grain-oriented silicon steel

High Permeability: Its permeability is much higher than that of ordinary steel, enabling magnetic flux to be transmitted more smoothly in the iron core, making the magnetic circuit of motors, transformers and other equipment smoother, reducing energy losses and improving working efficiency.

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23QK095 grain-oriented silicon steel

High Magnetic Performance: It features high magnetic flux density and high permeability. Under the same magnetizing field, it can generate a stronger magnetic induction, effectively enhancing the magnetic field strength of equipment such as motors and transformers and improving their working efficiency and power density.

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23QK100 grain-oriented silicon steel

High Permeability and Low Loss: It has relatively high permeability, enabling efficient magnetic field conduction. In an alternating magnetic field, the hysteresis loss and eddy current loss are low, which can effectively reduce power loss and improve the energy efficiency of equipment.

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20GK065 grain-oriented silicon steel

Low Core Loss and High Magnetic Induction: It has low core loss and small energy loss in an alternating magnetic field, which can effectively reduce the power consumption of equipment such as transformers during operation and improve energy utilization efficiency.

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20GK070 grain-oriented silicon steel

Low Core Loss and High Magnetic Induction: It has low core loss and small energy loss in an alternating magnetic field, which can effectively reduce the power consumption of equipment such as transformers during operation and improve energy utilization efficiency.

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20GK075 grain-oriented silicon steel

Low Core Loss: In an alternating magnetic field, its core loss is relatively low, which can effectively reduce power consumption and improve energy utilization efficiency, with remarkable energy-saving effects.

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20GK080 grain-oriented silicon steel

Low Core Loss Feature: In an alternating magnetic field, its core loss is extremely low, which can effectively reduce the energy loss of equipment such as transformers during operation, improve energy utilization efficiency and cut down the power cost.

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30QK105 grain-oriented silicon steel

Excellent Magnetic Properties: It has the characteristic of high magnetic induction. Under a certain magnetic field, it can generate a relatively strong magnetic induction intensity, enabling the iron core to obtain a higher magnetic flux density under a smaller magnetizing current.

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30QK120 grain-oriented silicon steel

Low Core Loss and High Magnetic Induction: It has low core loss and small energy loss in an alternating magnetic field, which can effectively reduce the power consumption of equipment such as transformers during operation and improve energy utilization efficiency.

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