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| Quantity: | |
|---|---|
12.5gsm
fancyco
48020000
In the dynamic field of new energy storage batteries, every component plays a crucial role in determining the battery's performance and longevity. Our Pasting Tissue Paper is a vital part of lead - acid batteries used in new energy storage systems. It serves multiple functions that contribute to the overall efficiency and reliability of the battery.
The Pasting Tissue Paper features a high porosity structure. This allows for better electrolyte absorption and distribution within the battery. The high porosity enables the free movement of ions, which is essential for efficient charge and discharge processes. As a result, the battery can achieve higher power output and faster charging rates, meeting the demands of modern new energy storage applications.
It is highly resistant to the corrosive chemicals present in the battery electrolyte. Whether it is the strong acid in a lead - acid battery or other reactive substances, the Pasting Tissue Paper can withstand the chemical attack. This chemical resistance ensures that the paper maintains its integrity over a long period, preventing premature degradation and extending the battery's service life.
Despite its thin and delicate appearance, our Pasting Tissue Paper has remarkable mechanical strength. It can endure the mechanical stress during the battery manufacturing process, such as pasting and winding. Moreover, it remains intact during the battery's operation, withstanding vibrations and impacts. This mechanical strength is crucial for maintaining the physical structure of the battery and preventing internal short - circuits.
In solar energy storage systems, batteries need to store energy during the day and release it at night. Our Pasting Tissue Paper helps the lead - acid batteries in these systems to operate efficiently. It allows for smooth ion transfer during the charging process when the solar panels generate electricity, and during the discharging process when the stored energy is used. This ensures a stable power supply from the solar energy storage system.
Wind energy is intermittent, and batteries are required to store the energy when the wind is blowing and release it when needed. The Pasting Tissue Paper in the lead - acid batteries used for wind energy storage enables the batteries to handle the sudden changes in charge and discharge. It helps to maintain the battery's performance under varying conditions, providing a reliable energy storage solution for wind power plants.
We have a strict quality control system in place for the production of our Pasting Tissue Paper. Each batch of paper undergoes a series of tests, including porosity testing, chemical resistance testing, and mechanical strength testing. Our quality control team ensures that the paper meets the highest industry standards. We also conduct regular audits of our production process to continuously improve the quality of our products.
We understand that different customers may have different requirements for their new energy storage batteries. Therefore, we offer customization services for our Pasting Tissue Paper. Our technical team can work closely with customers to develop paper with specific properties, such as different porosity levels or thicknesses. In addition, we provide comprehensive after - sales support, including technical advice and troubleshooting, to ensure that our customers have a satisfactory experience using our products.
As the new energy storage industry continues to evolve, we are committed to continuous research and development. We aim to further improve the performance of our Pasting Tissue Paper, such as enhancing its ion - transfer efficiency and reducing its environmental impact. We believe that our Pasting Tissue Paper will continue to be an important component in the development of more advanced and efficient new energy storage batteries.
TECHNICAL DATA SHEET OF BATTERY PASTING PAPER
| TECHNICAL SPECIFICATION | UNIT | INDEX | TESTING DATA |
| SUBSTANCE | g/m2 | 12.5±0.5 | 12.7 |
| POROSITY | Cm³/min·cm2 | ≥800 | 1200 |
| TENSILE STRENGTH(MD) | kN/m | ≥0.5 | 0.62 |
| TENSILE STRENGTH(CD) | kN/m | ≥0.09 | 0.14 |
| WET TENSILE STRENGTH(MD) | kN/m | ≥0.10 | 0.13 |
| ASH | % | ≤0.2 | 0.133 |
| ASH(Fe ) | Mg/kg | ≤40 | 29.4 |
| Cl | Mg/kg | ≤100 | 50.1 |
| THICKNESS | um | ≥30 | 38 |
| PH | -- | 6-8 | 6.81 |
| MOISTUREAT DELIVERY | % | ≤7 | 6.1 |
In the dynamic field of new energy storage batteries, every component plays a crucial role in determining the battery's performance and longevity. Our Pasting Tissue Paper is a vital part of lead - acid batteries used in new energy storage systems. It serves multiple functions that contribute to the overall efficiency and reliability of the battery.
The Pasting Tissue Paper features a high porosity structure. This allows for better electrolyte absorption and distribution within the battery. The high porosity enables the free movement of ions, which is essential for efficient charge and discharge processes. As a result, the battery can achieve higher power output and faster charging rates, meeting the demands of modern new energy storage applications.
It is highly resistant to the corrosive chemicals present in the battery electrolyte. Whether it is the strong acid in a lead - acid battery or other reactive substances, the Pasting Tissue Paper can withstand the chemical attack. This chemical resistance ensures that the paper maintains its integrity over a long period, preventing premature degradation and extending the battery's service life.
Despite its thin and delicate appearance, our Pasting Tissue Paper has remarkable mechanical strength. It can endure the mechanical stress during the battery manufacturing process, such as pasting and winding. Moreover, it remains intact during the battery's operation, withstanding vibrations and impacts. This mechanical strength is crucial for maintaining the physical structure of the battery and preventing internal short - circuits.
In solar energy storage systems, batteries need to store energy during the day and release it at night. Our Pasting Tissue Paper helps the lead - acid batteries in these systems to operate efficiently. It allows for smooth ion transfer during the charging process when the solar panels generate electricity, and during the discharging process when the stored energy is used. This ensures a stable power supply from the solar energy storage system.
Wind energy is intermittent, and batteries are required to store the energy when the wind is blowing and release it when needed. The Pasting Tissue Paper in the lead - acid batteries used for wind energy storage enables the batteries to handle the sudden changes in charge and discharge. It helps to maintain the battery's performance under varying conditions, providing a reliable energy storage solution for wind power plants.
We have a strict quality control system in place for the production of our Pasting Tissue Paper. Each batch of paper undergoes a series of tests, including porosity testing, chemical resistance testing, and mechanical strength testing. Our quality control team ensures that the paper meets the highest industry standards. We also conduct regular audits of our production process to continuously improve the quality of our products.
We understand that different customers may have different requirements for their new energy storage batteries. Therefore, we offer customization services for our Pasting Tissue Paper. Our technical team can work closely with customers to develop paper with specific properties, such as different porosity levels or thicknesses. In addition, we provide comprehensive after - sales support, including technical advice and troubleshooting, to ensure that our customers have a satisfactory experience using our products.
As the new energy storage industry continues to evolve, we are committed to continuous research and development. We aim to further improve the performance of our Pasting Tissue Paper, such as enhancing its ion - transfer efficiency and reducing its environmental impact. We believe that our Pasting Tissue Paper will continue to be an important component in the development of more advanced and efficient new energy storage batteries.
TECHNICAL DATA SHEET OF BATTERY PASTING PAPER
| TECHNICAL SPECIFICATION | UNIT | INDEX | TESTING DATA |
| SUBSTANCE | g/m2 | 12.5±0.5 | 12.7 |
| POROSITY | Cm³/min·cm2 | ≥800 | 1200 |
| TENSILE STRENGTH(MD) | kN/m | ≥0.5 | 0.62 |
| TENSILE STRENGTH(CD) | kN/m | ≥0.09 | 0.14 |
| WET TENSILE STRENGTH(MD) | kN/m | ≥0.10 | 0.13 |
| ASH | % | ≤0.2 | 0.133 |
| ASH(Fe ) | Mg/kg | ≤40 | 29.4 |
| Cl | Mg/kg | ≤100 | 50.1 |
| THICKNESS | um | ≥30 | 38 |
| PH | -- | 6-8 | 6.81 |
| MOISTUREAT DELIVERY | % | ≤7 | 6.1 |
