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Our PE separator has excellent puncture resistance. During the battery manufacturing process and daily use, there is a risk of the separator being punctured by sharp objects or electrode protrusions. The high puncture resistance of our PE separator ensures that it can withstand such forces without being damaged. This helps to prevent short - circuits between the positive and negative electrodes, which is essential for the safe and reliable operation of the car battery.
The PE separator features a uniform pore structure. These pores are precisely sized and evenly distributed across the separator. The uniform pore structure allows for consistent ion flow between the electrodes. This results in more stable and efficient chemical reactions within the battery, leading to improved battery performance, including better charge acceptance and higher discharge rates.
It has outstanding chemical stability in the harsh environment of lead - acid batteries. The separator can resist the strong sulfuric acid electrolyte and other chemical substances present in the battery. This chemical stability prevents the separator from degrading over time, ensuring the long - term performance and reliability of the battery.
The low electrical resistance of our PE separator is another significant advantage. A low - resistance separator allows for easier movement of ions, reducing the internal resistance of the battery. This, in turn, leads to less energy loss during the charge and discharge processes, improving the battery's energy efficiency and overall power output.
In high - capacity lead - acid batteries for cars, our PE separator plays a vital role in enabling the battery to store and deliver large amounts of energy. The uniform pore structure and low electrical resistance allow for efficient ion transfer, which is necessary for high - capacity operation. This means that the car battery can provide sufficient power for various electrical systems in the car, such as the starter motor, lights, and infotainment system.
Cold weather can significantly affect the performance of car batteries. Our PE separator helps to improve the cold - cranking performance of the battery. The low electrical resistance ensures that the battery can deliver a high current quickly even in cold temperatures, allowing the car to start reliably in cold conditions.
We have a rigorous quality control system in place for the production of our PE separator. Every step of the manufacturing process is closely monitored to ensure that the separator meets the highest quality standards. We conduct a series of tests, including puncture resistance testing, pore size analysis, chemical stability testing, and electrical resistance measurement. Only products that pass all these tests are approved for shipment to our customers.
We understand that different car manufacturers may have different requirements for their lead - acid batteries. Therefore, we offer customization services for our PE separator. Our technical team can work with customers to develop separators with specific properties, such as different pore sizes, thicknesses, or chemical resistance levels. In addition, we provide comprehensive after - sales support, including technical advice and troubleshooting, to ensure that our customers are satisfied with our products.
As the automotive industry continues to evolve, we are committed to continuous research and development. We aim to further improve the performance of our PE separator, such as enhancing its thermal stability and reducing its environmental impact. We believe that our PE separator will continue to be an essential component in the development of more advanced and reliable high - capacity lead - acid batteries for cars.
| Attribute | Details |
|---|---|
| Material | High-quality polyethylene (PE) |
| Outer Surface | Smooth, low-resistance design |
| Inner Surface | Ribbed structure for improved electrolyte flow |
| Rib Distance Options | 4mm, 5mm, 7mm, 10mm, 12mm |
| Thickness Range | 9μm - 25μm |
| Heat Resistance | Up to 165°C |
| Electrolyte Retention | Optimized porosity for improved absorption |
| Application | Lead-acid batteries for cars, trucks, and industrial vehicles |
Our PE separator has excellent puncture resistance. During the battery manufacturing process and daily use, there is a risk of the separator being punctured by sharp objects or electrode protrusions. The high puncture resistance of our PE separator ensures that it can withstand such forces without being damaged. This helps to prevent short - circuits between the positive and negative electrodes, which is essential for the safe and reliable operation of the car battery.
The PE separator features a uniform pore structure. These pores are precisely sized and evenly distributed across the separator. The uniform pore structure allows for consistent ion flow between the electrodes. This results in more stable and efficient chemical reactions within the battery, leading to improved battery performance, including better charge acceptance and higher discharge rates.
It has outstanding chemical stability in the harsh environment of lead - acid batteries. The separator can resist the strong sulfuric acid electrolyte and other chemical substances present in the battery. This chemical stability prevents the separator from degrading over time, ensuring the long - term performance and reliability of the battery.
The low electrical resistance of our PE separator is another significant advantage. A low - resistance separator allows for easier movement of ions, reducing the internal resistance of the battery. This, in turn, leads to less energy loss during the charge and discharge processes, improving the battery's energy efficiency and overall power output.
In high - capacity lead - acid batteries for cars, our PE separator plays a vital role in enabling the battery to store and deliver large amounts of energy. The uniform pore structure and low electrical resistance allow for efficient ion transfer, which is necessary for high - capacity operation. This means that the car battery can provide sufficient power for various electrical systems in the car, such as the starter motor, lights, and infotainment system.
Cold weather can significantly affect the performance of car batteries. Our PE separator helps to improve the cold - cranking performance of the battery. The low electrical resistance ensures that the battery can deliver a high current quickly even in cold temperatures, allowing the car to start reliably in cold conditions.
We have a rigorous quality control system in place for the production of our PE separator. Every step of the manufacturing process is closely monitored to ensure that the separator meets the highest quality standards. We conduct a series of tests, including puncture resistance testing, pore size analysis, chemical stability testing, and electrical resistance measurement. Only products that pass all these tests are approved for shipment to our customers.
We understand that different car manufacturers may have different requirements for their lead - acid batteries. Therefore, we offer customization services for our PE separator. Our technical team can work with customers to develop separators with specific properties, such as different pore sizes, thicknesses, or chemical resistance levels. In addition, we provide comprehensive after - sales support, including technical advice and troubleshooting, to ensure that our customers are satisfied with our products.
As the automotive industry continues to evolve, we are committed to continuous research and development. We aim to further improve the performance of our PE separator, such as enhancing its thermal stability and reducing its environmental impact. We believe that our PE separator will continue to be an essential component in the development of more advanced and reliable high - capacity lead - acid batteries for cars.
| Attribute | Details |
|---|---|
| Material | High-quality polyethylene (PE) |
| Outer Surface | Smooth, low-resistance design |
| Inner Surface | Ribbed structure for improved electrolyte flow |
| Rib Distance Options | 4mm, 5mm, 7mm, 10mm, 12mm |
| Thickness Range | 9μm - 25μm |
| Heat Resistance | Up to 165°C |
| Electrolyte Retention | Optimized porosity for improved absorption |
| Application | Lead-acid batteries for cars, trucks, and industrial vehicles |
