New Energy Industry

Case Background:

With the explosive growth of the new energy vehicle industry, the battery system, as a core component, has seen an increasingly urgent need for cost control and lightweighting. The traditional stamping process for aluminum alloy battery shells has several drawbacks, including severe material waste, high mold costs, and long production cycles, which cannot meet the requirements of the new energy vehicle industry for "low cost, high production capacity, and lightweighting". Cold bending forming technology has thus come into its own. 
For the cold bending forming production line of aluminum alloy thin plates (with a thickness of 1.5 - 3mm), it can produce key components such as the side walls and top of battery shells. It is compatible with various cross-sectional shapes (such as rectangles and trapezoids), meeting the production needs of multiple types of battery shells for customers. 
 

Case Summary:

This case fully demonstrates the application value of the cold bending equipment in the field of new energy batteries:
Cost reduction and efficiency improvement: Through high material utilization and high production efficiency, it directly reduces product costs and shortens the investment return cycle;
Lightweight support: The cold bending forming process maintains the original mechanical properties of aluminum alloy, and at the same time, through optimizing the cross-sectional shape, it achieves weight reduction, meeting the core requirements of new energy vehicles;
Flexible production capacity: Compatible with various cross-sectional shapes and production scales, it can quickly respond to customers' customized order demands.
The cold bending forming production line not only solves the customers' pain points but also provides a "low cost, high capacity, lightweight" solution for new energy battery enterprises, helping them gain an advantage in the fierce market competition.