Structure & Material
| - Pushing rods (top and bottom) are made of stainless steel. (Gold plating is available upon request at an extra cost)
- Sleeve Material: Nylon or PEEK is selectable at the product option.
- Poly Ether Ether Ketone (PEEK) is a semicrystalline thermoplastic with excellent mechanical and chemical resistance properties that are retained to high temperatures. (Click here to see properties)
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Instruction on How to Use
| - Simply put the electrode, separator, and electrolyte materials into the die with no screws required
- Place the die into a compact lab press to apply pressure without crimping (click pics 1-2 to order lab press)
- Connect the current leads from pushing rods to a battery analyzer for testing
- You may use a thickness fixture (Pic 3 ) to measure the expansion of the assembled battery during charging & discharging
- You may use a digital press to apply pressure ( Pic. 4)
Pic. 1 Pic. 2 Pic. 3 Pic. 4 |
Optional Heating Condition
| - For higher working temperatures and pressure applications, please choose Si3N4 ceramic die as an option. (Pic.1)
- To test a solid-state cell at heating conditions (<250°C), please select a heatable Si3N4 solid-state cell combination that includes a heating jacket and a temperature control unit. (Pic.2)
- To study the performance of solid-state battery materials under different pressures and temperatures, please order a heating and pressurizing analysis system. (Pic.3)
Pic. 1 Pic. 2 Pic. 3 |
Max. Working Temperature and Max. Working Pressure
| - 150ºC (Peek) 20 Mpa pressure
- 90ºC (Nylon) 20 Mpa pressure
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Compliance | - Patent Granted: 2016205216100 for the Pressure Controlled (up to 20 MPa) Split Coin Cell - EQ-PSC since June 2016
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Dimensions | Split Cell Drawing Available in various inner sleeve sizes: 8, 10,12, 15, 20, and 25 mm diameter (Φ15 mm)
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Demo Video | Video: How to use the split cell Video: How to make a solid-state battery |
Application Note | Pic.1 Pic.2 Pic.3 |