Spot welding is the preferred method for professional battery pack assembly, offering superior safety, performance, and reliability, especially for high-current applications.
Which welding method is best suited to a battery pack?
In this article, we will discuss multiple welding methods from resistance welding to laser welding technologies and see when one is better suited over another. To join cells into a battery pack, the cell terminals are welded together in serial or parallel to achieve either a higher voltage, higher capacity, or both.
What to consider when welding a battery pack?
The most crucial aspect to consider when welding a battery pack is the contact resistance between the cell and the connection tab or a buss bar. This variable needs to be minimized to prevent unnecessary energy loss in the form of heat generation.
Which welding methods are used in the production of battery applications?
The compared techniques are resistance spot welding, laser beam welding and ultrasonic welding. The performance was evaluated in terms of numerous factors such as production cost, degree of automation and weld quality. All three methods are tried and proven to function in the production of battery applications.
Resistance welding Resistance welding is the most cost-effective method to weld battery tabs, using both DC inverter closed loop and capacitor discharge power supplies.
The search was then performed using Uppsala University's Library database and Google scholar which cover a wide range of articles and sources. Three methods for welding batteries were given in the template, being laser beam-, ultrasonic-, and resistance spot welding.
Can micro-TIG welding be used for battery packs?
The micro-TIG is used for butt, fillet, and lap welds very effectively, and it can go beyond the 0.02″ thick copper without problems. But, it's interesting to note that there are no reports of micro-TIG welding in the manufacturing of electric vehicles battery packs.