For the design of plastic centrifugal impeller blades, the main purpose is to achieve the maximum blade area with the minimum blade weight, so that the blades have higher wind-capturing ability. Therefore, it is very important to optimize the design of the blade, especially the optimal shape design and structural optimization design of large composite blades that meet the aerodynamic requirements.
At the same time, this is also an effective support for achieving a good combination of material and process of the plastic centrifugal impeller fan blade. At the same time, the application of computer simulation technology makes the structure of the blade and the design of the laminate more detailed, which strongly supports the determination of the optimal process parameters.
In practical applications, the performance requirements for plastic centrifugal impeller blades are becoming more and more strict for different power requirements. In order to ensure the smooth operation of the generator and the safety of the tower, not only the quality of the blade is required, but also the mass distribution of the blade must be uniform, the accuracy of the dimensional accuracy is accurately controlled, and the long-term performance is reliable. To meet the above requirements, a corresponding molding process is required to ensure.