We precisely punch out Li-ion battery electrode materials from a film thickness of 0.005mm! No burrs, reduced adhesion, and prevention of contamination.
【Proven performance of Li-ion battery electrode materials for over 1 million shots without regrinding】 ● Minimizes contamination and aluminum material adhesion to molds ● Clean cross-sections without burrs or deformation are maintained for a long time
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basic information
<Proposal for Stamping Dies for Battery Production Line> Significantly reduce unnecessary running costs in the production line. ◇Improved production efficiency with long-lasting dies - Stable quality through long-term continuous production - Significant reduction in maintenance costs - No need for spare dies - Reduced labor costs during setup changes
Price information
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Delivery Time
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Applications/Examples of results
Ultra-precision punching and cutting dies for Li-ion battery electrode materials.
Detailed information
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Mass production - mold for line use.
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<Research and Development Use> World’s Smallest Class Ultra-Precision Mold Hand Punch (Visual Cutting) <Prototyping and Research Handy Tool> ● Exceptional Cutting Performance and Long Lifespan ● High Rigidity Design ● Lightweight and Compact ● Complete Measures Against Wear and Foreign Objects
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<Prototype / Small Production - Desktop Jig> Ideal for work inside a glove box, ultra-precision press for punching electrode materials. Compatible with a variety of products using cassette molds. ● Shape: □50 (R0.2~) mm ● Punching force: Approximately 200 kg ● Total weight: Approximately 10 kg ● Size: W155 × L260 × H269 mm
Company information
We will propose various precision jigs tailored to the work shape, utilizing ultra-precision machining technology developed with a vice, from the design stage. Are you having trouble with film burrs or deformation? Our ultra-precision finished "film cutting molds and jigs" have no burrs or deformation, are long-lasting, and can handle foils (0.005 mm and above) that are typically considered difficult. Thanks to our know-how regarding blade shapes, materials, and other factors, we can also create structures that are difficult for various adhesives to adhere to.