Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.

Flame Retardants: Adding flame retardants to the PP film helps it resist ignition and slow down the spread of flames, improving safety in electrical applications.

Antioxidants: Antioxidants can prevent the oxidation of PP films, prolonging their life by reducing thermal degradation.

Plasticizers: Plasticizers are used to enhance the flexibility of the film, which can improve its ability to withstand stress and cracking under electrolyte exposure.

UV Stabilizers: UV stabilizers help the film resist degradation caused by exposure to ultraviolet light, increasing its durability.

Plasma Treatment: Plasma treatment is commonly used to alter the surface of the PP film, making it more resistant to electrolyte absorption and improving its adhesion to other materials.

Coating Techniques: Coatings such as silicone or epoxy resins are applied to the PP film to provide a protective layer, reducing the interaction with electrolytes.

Ion Beam Treatment: Ion beam treatment helps to modify the surface energy of PP films, making them more hydrophobic and thus preventing excessive swelling when exposed to electrolytes.