close
Choose Your Site
Global
Social Media
| Quantity: | |
|---|---|
Max Weight of Manually Stacked Core: 120 Ton
Gap Limit at the Joint: <1.0mm
Window Height Precision: ±1mm
Window Width Precision: ±1mm
We meticulously calculate and update the quotation based on your precise drawings, ensuring utmost accuracy and cost-effectiveness.Once you confirm, we will initiate production based on the detailed drawings you provide, ensuring adherence to your exact specifications.
The performance of transformer iron cores is affected by many factors. Firstly, the quality of the material. Parameters such as the silicon content, magnetic permeability, and iron loss of silicon steel sheets directly determine the performance of the iron core. High-quality silicon steel sheets can significantly reduce iron core loss. Secondly, the structural design of the iron core. The cross-sectional area of the core columns, the size of the yokes, the form of the joints, etc., will all affect the reluctance and loss of the magnetic circuit. A reasonable structural design can optimize the magnetic flux distribution and reduce loss. The manufacturing process is also an important influencing factor. Insufficient cutting accuracy, loose stacking, uneven fastening force, etc., will lead to a decline in iron core performance, increasing loss and vibration noise. In addition, factors such as temperature and magnetic field strength during operation will also have an impact on the performance of the iron core. Excessively high temperatures will deteriorate the magnetic properties of the silicon steel sheets, while strong magnetic fields may cause the iron core to saturate and increase loss. Therefore, in the design, manufacturing, and operation of transformers, these factors need to be fully considered to ensure good performance of the iron core.