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| Quantity: | |
|---|---|
PE
fancyco
85153100
As the demand for new energy storage solutions grows, the importance of high - quality lead - acid battery separators cannot be overstated. Our lead - acid battery separator is engineered to enhance the performance and lifespan of new energy storage batteries. It is a key enabler for efficient energy storage and utilization in various applications.
Our separator features a unique micro - structure that optimizes ion flow. The carefully designed pores are uniform in size and distribution, which not only promotes efficient ion transfer but also reduces the internal resistance of the battery. This results in better energy efficiency and higher power output.
The separator has excellent thickness uniformity across its surface. This uniformity ensures consistent performance throughout the battery. It helps to prevent uneven current distribution, which can lead to premature battery failure. By maintaining a uniform thickness, we can guarantee the stability and reliability of the battery.
In new energy storage applications, batteries often undergo frequent charge - discharge cycles. Our separator significantly improves the cycling performance of lead - acid batteries. It can withstand repeated cycling without significant degradation, ensuring a longer service life for the battery.
The separator helps to reduce the self - discharge rate of the battery. This means that the battery can retain its charge for a longer period when not in use. For new energy storage systems, this is crucial as it ensures that the stored energy is available when needed, minimizing energy losses.
Our lead - acid battery separator is highly compatible with a wide range of lead - acid battery chemistries used in new energy storage. Whether it is a flooded lead - acid battery or a valve - regulated lead - acid (VRLA) battery, our separator can be seamlessly integrated. This compatibility makes it a versatile choice for different types of new energy storage applications.
We are committed to environmental sustainability in our product development. Our lead - acid battery separator is made from environmentally friendly materials. During the production process, we minimize waste and energy consumption. In addition, the separator is recyclable at the end of its life cycle, reducing the environmental impact of battery disposal. We believe that by providing an environmentally friendly product, we can contribute to the sustainable development of the new energy storage industry.
Technical Data of PE Separator For Automotive Battery
Item | Unit | Parameters |
Basic thickness | mm | 0.200±0.030 0.250±0.030 |
Major Rib high | mm | (0.80~1.30)±0.05 |
Puncture Resistance | N | ≥8 |
Elongation (CMD) | % | ≥300 |
Electrical Resistance | Ω.sq dm | ≤0.0010 (Standard) ≤0.0015(Special) |
Porosity | % | ≥55 |
B/W Oil Content | % | ≥8 |
O/W Oil Content | % | 12≤Total≤18 |
Moisture Content | % | ≤3.0 |
Dimension Stability | % | ≤1.0 |
Wetting Time | s | ≤60 |
Acid Weight Loss | % | ≤4.0 |
Fe Content | % | ≤0.010 |
Cl Content | % | ≤0.030 |
Reducing Substance | Ml/g | ≤10 |
Oxidation stability (CMD)After-oxidation Elongation(CMD) | % | ≥100(48h) |
As the demand for new energy storage solutions grows, the importance of high - quality lead - acid battery separators cannot be overstated. Our lead - acid battery separator is engineered to enhance the performance and lifespan of new energy storage batteries. It is a key enabler for efficient energy storage and utilization in various applications.
Our separator features a unique micro - structure that optimizes ion flow. The carefully designed pores are uniform in size and distribution, which not only promotes efficient ion transfer but also reduces the internal resistance of the battery. This results in better energy efficiency and higher power output.
The separator has excellent thickness uniformity across its surface. This uniformity ensures consistent performance throughout the battery. It helps to prevent uneven current distribution, which can lead to premature battery failure. By maintaining a uniform thickness, we can guarantee the stability and reliability of the battery.
In new energy storage applications, batteries often undergo frequent charge - discharge cycles. Our separator significantly improves the cycling performance of lead - acid batteries. It can withstand repeated cycling without significant degradation, ensuring a longer service life for the battery.
The separator helps to reduce the self - discharge rate of the battery. This means that the battery can retain its charge for a longer period when not in use. For new energy storage systems, this is crucial as it ensures that the stored energy is available when needed, minimizing energy losses.
Our lead - acid battery separator is highly compatible with a wide range of lead - acid battery chemistries used in new energy storage. Whether it is a flooded lead - acid battery or a valve - regulated lead - acid (VRLA) battery, our separator can be seamlessly integrated. This compatibility makes it a versatile choice for different types of new energy storage applications.
We are committed to environmental sustainability in our product development. Our lead - acid battery separator is made from environmentally friendly materials. During the production process, we minimize waste and energy consumption. In addition, the separator is recyclable at the end of its life cycle, reducing the environmental impact of battery disposal. We believe that by providing an environmentally friendly product, we can contribute to the sustainable development of the new energy storage industry.
Technical Data of PE Separator For Automotive Battery
Item | Unit | Parameters |
Basic thickness | mm | 0.200±0.030 0.250±0.030 |
Major Rib high | mm | (0.80~1.30)±0.05 |
Puncture Resistance | N | ≥8 |
Elongation (CMD) | % | ≥300 |
Electrical Resistance | Ω.sq dm | ≤0.0010 (Standard) ≤0.0015(Special) |
Porosity | % | ≥55 |
B/W Oil Content | % | ≥8 |
O/W Oil Content | % | 12≤Total≤18 |
Moisture Content | % | ≤3.0 |
Dimension Stability | % | ≤1.0 |
Wetting Time | s | ≤60 |
Acid Weight Loss | % | ≤4.0 |
Fe Content | % | ≤0.010 |
Cl Content | % | ≤0.030 |
Reducing Substance | Ml/g | ≤10 |
Oxidation stability (CMD)After-oxidation Elongation(CMD) | % | ≥100(48h) |
