The company will equip several production lines. The delivery of these systems for electrode drying is expected for summer 2016.
With a system combination of the dry compressing screw vacuum pump DRYVAC DV 450C and the proven Roots RUVAC WH2500, the customer will optimize its production lines. Decisive factors for awarding the contract were in particular the superior process capability at low operating costs and the services offered. "Moreover, the smooth, interactive communication between customer, sales and application support showed our commitment," says HY Moon, Head of Sales Oerlikon Leybold Vacuum Korea.
In the manufacture of battery cells, vacuum technology is used for several production steps and has a high importance for the efficiency of production. During their entire life cycle, batteries need to maintain a high quality, therefore high-performance vacuum systems are necessary in order to provide the conditions for high-quality batteries, e.g. in specified drying processes. Especially with Li cells for electric vehicles, these quality requirements are increasingly important, as the demands for volumetric storage capacity, lightweight and safety are growing. Apart from electrode drying, the vacuum-assisted manufacturing steps comprise cell assembly and leak detection testing.
The vacuum pioneer from Cologne expects further business transactions in the current year. "With this order we position ourselves clearly in the fast-growing, attractive business field of modern energy storage for electric mobility," says Dr. Martin Füllenbach, CEO of Oerlikon Leybold Vacuum. The business potential for the current year shows positive aspects, especially since the market for lithium ion batteries is generally expected to grow at sustainable rates during the next three years.
With its extensive and high degree of process and application knowledge, Oerlikon Leybold Vacuum will contribute to improve production concepts - also in order to reach a higher attractiveness of the lithium-ion batteries for mass-market applications due to a greater range per charge cycle and lower production costs.