MSE PRO Polyethylene (PE) Battery Separator Roll by Wet Method (1000m L × 60mm W × 20um T)
SKU: BR0612
MSE PRO™ Polyethylene (PE) Battery Separator Roll by Wet Method (1000m L × 60mm W × 20um T)
MSE PRO™ Polyethylene (PE) Battery Separator is prepared for meeting the needs of more high-end technology , especially the battery materials. This product has excellent chemical stability and good mechanical properties. In general, the battery separator made of PE material has been widely used in lithium-ion batteries and other types of batteries because of its superior comprehensive performance.
-
Excellent Mechanical Properties: Polyethylene (PE) has good tensile strength and toughness, making the battery separator less prone to damage during production and use.
-
Good Chemical Stability: PE material has excellent resistance to electrolytes, maintaining stability in the battery environment and being less likely to undergo chemical reactions.
-
Excellent Electrical Insulation: PE material has excellent electrical insulation properties, helping to prevent internal short circuits within the battery.
-
Thermal Stability and Safety: PE material has good thermal stability, maintaining the integrity of the separator at high temperatures. Additionally, PE separators shrink under overheating conditions to block the current, enhancing battery safety.
-
Low Cost: Compared to other high-performance separator materials, PE material is relatively inexpensive, making it suitable for large-scale production and application.
-
Easy to Process: PE material is easy to process into thin films and can be formed into microporous structures through specific processes to meet the permeability requirements of battery separators.
MSE Supplies offers a range of Battery Separators. Please contact us for more information.
Specifications:
SKU# |
BR0612 |
Package |
1000 m/pack |
Material | Polypropylene (PP) |
Thickness | 20 um |
Width | 60 mm |
Air Permeability | 350 ± 100 s/100mL |
Porosity | 42 ± 3 % |
Puncture Strength | ≥ 400 G |
Tensile Strength | ≥ 1400 Kgf/cm2 (MD); ≥ 1300 Kgf/cm2 (TD) |