Mass Production Line for Gigalevel Lithium Ceramic Battery
CENCERA CORPORATION was founded in 2009 in Suzhou City, Jiangsu Province, China by Mr. Charles Chen and Mr. Jean Marie Vignot. The factory is now located in Zhejiang Province with a registered capital of 10 million Rmb and an investment of 30 million Rmb. It is a national high-tech enterprise. Mr. Charles Chen the founder and general manager of CENCERA, is an expert in industrial ceramic technology and a leading talent in Jiaxing City, Zhejiang Province, China. Mr. Jean Marie Vignot, a French expert, serves as the technical consultant. The team has over 40 years of professional experience in advanced ceramics. The advanced ceramic materials developed by CENCERA are world-leading, with many products being first of their kind in China, featuring high technological content and great challenges. CENCERA independently designs and produces products including Ce-Pure advanced ceramic materials, powder production systems, slurry systems, forming systems, drying systems, thermal flotation sintering systems, lamination systems, as well as supporting testing, handling, packaging, and more. CENCERA provides turnkey projects that include materials, equipment, and processes.
|
Nb. |
Items |
Description |
|
1 |
Slurry Mixing |
Mixing the core materials proportionally to prepare slurries for cathode & anode electrodes and ceramic solid-state electrolyte separator |
|
2 |
Substrate Alignment Mark Printing |
Print the alignment marks on substrates to enhance the alignment for subsequent processes |
|
3 |
Cathode & Anode Coating |
Apply the cathode and anode slurries to the respective substrates |
|
4 |
Ceramic Separator Coating |
Apply a composite solid-state electrolyte to the anode as a separator replacing the separator film (PP/PE) |
|
5 |
Coating Drying Oven |
Special oven capable of drying the electrodes and the coated separator slurry rapidly |
|
6 |
Automated Optical Inspection |
Ensure the product quality by real-time automated measurement and monitoring of coating of coating dimensions in line |
|
7 |
Coating Thickness Meter |
Ensure correct coating weight by automated thickness inspection on line |
|
8 |
Auto-rewinder |
Production efficiency enhanced by enabling roll unloading without machine shutdown |
|
9 |
Dimensions Measurement |
Precise measurement of product dimensions ensuring quality and stability throughout the process |
|
10 |
Calendering |
Utilizing a special thermal calendering, this process tightly compacts the electrode materials and the solid-state electrolyte |
|
11 |
Silk Printing |
Print sealing material, Printing on electrodes, to enhance alignment precision for the subsequent attachment process |
|
12 |
Hot Flow Dehydration |
Ultra-high-temperature rapid dehydration decrease moisture content in ceramic by a special thermal treatment |
|
13 |
Electrode Attachment |
Complete accurate attachment of multiple Cathode & Anode electrodes in one go |
|
14 |
Lamination |
Complete the boding of solid-state electrolyte to reduce interface resistance |
|
15 |
Inlay Forming |
Cutting based on product size specifications for forming Inlays |
|
16 |
Automated High-Speed Stacking |
Stack Inlays based on product specifications |
|
17 |
Tab Welding |
Weld tabs and tab leads together |
|
18 |
Inserting |
Wrap the stack with aluminium-plastic film to isolate moisture and enhance insulation capability |
|
19 |
Sealing |
Complete side and top sealing continuously, without the need for electrolyte injection or vacuum pressure impregnation |
CENCERA is providing the industry with a GWh-level mass production solution for lithium ceramic solid-state batteries.
Note: These values are not a guarantee of CENCERA's products and systems, but represent typical values for standard components. Due to continuous technological improvements, these values may reasonably vary.
