Core Functions:
Static electricity protection: The inner coating makes the surface resistance of the material reach 10^6-10^10Ω, which allows static electricity to be released faster and prevents the accumulation of static electricity charges.
Electromagnetic shielding: The aluminum foil layer reflects/absorbs electromagnetic waves, with a shielding effectiveness of over 60dB.
Physical protection: The nylon layer (NY) enhances the puncture resistance of the film, and the polyethylene layer (CPE) provides stable heat sealing performance and good tensile strength.
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Technical structure and material characteristics
Layer | Material | Function |
outer coating | Antistatic polymer materials | Dissipate static electricity |
Outer Layer | PET | Patterns or instructions can be printed on the surface to enhance physical strength and effectively isolate air |
Middle Layer | AL | Effective electromagnetic shielding, and can block the penetration of light, gas, and moisture |
Barrier layer | NY (optional) | Improve puncture resistance, suitable for products to prevent oxidation and vacuum packaging |
Inner Layer | CPE | Can be used for heat sealing bag making, with good tensile strength |
inner coating | Antistatic polymer materials | Dissipate static electricity |
Core Application
1. Electronics Manufacturing
Semiconductor wafers: vacuum packaging to prevent oxidation and electrostatic damage
PCB/components: Shielding electromagnetic interference (EMI) during transportation
2. Medical equipment
Implantable devices: Preventing static electricity from damaging delicate sensors
Diagnostic reagents: electrostatic protection in low temperature refrigeration environment
3. Aerospace
Satellite components: shielding against cosmic rays and static electricity in a vacuum environment
Navigation systems: protection against electromagnetic pulse (EMP) interference
4. New energy industry
Lithium battery pole piece: Preventing short circuit caused by static electricity during transportation
Photovoltaic panels: Moisture and ESD protection during outdoor storage
5. Military industry
Night vision devices: protecting photoelectric sensors from electromagnetic interference.
Missile guidance systems: shielding against radar waves and static electricity threats.
6. Laboratory
Biological samples: static electricity protection during cryogenic storage
Chemical reagents: Block oxygen and humidity while preventing static sparks
Core Functions:
Static electricity protection: The inner coating makes the surface resistance of the material reach 10^6-10^10Ω, which allows static electricity to be released faster and prevents the accumulation of static electricity charges.
Electromagnetic shielding: The aluminum foil layer reflects/absorbs electromagnetic waves, with a shielding effectiveness of over 60dB.
Physical protection: The nylon layer (NY) enhances the puncture resistance of the film, and the polyethylene layer (CPE) provides stable heat sealing performance and good tensile strength.
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Technical structure and material characteristics
Layer | Material | Function |
outer coating | Antistatic polymer materials | Dissipate static electricity |
Outer Layer | PET | Patterns or instructions can be printed on the surface to enhance physical strength and effectively isolate air |
Middle Layer | AL | Effective electromagnetic shielding, and can block the penetration of light, gas, and moisture |
Barrier layer | NY (optional) | Improve puncture resistance, suitable for products to prevent oxidation and vacuum packaging |
Inner Layer | CPE | Can be used for heat sealing bag making, with good tensile strength |
inner coating | Antistatic polymer materials | Dissipate static electricity |
Core Application
1. Electronics Manufacturing
Semiconductor wafers: vacuum packaging to prevent oxidation and electrostatic damage
PCB/components: Shielding electromagnetic interference (EMI) during transportation
2. Medical equipment
Implantable devices: Preventing static electricity from damaging delicate sensors
Diagnostic reagents: electrostatic protection in low temperature refrigeration environment
3. Aerospace
Satellite components: shielding against cosmic rays and static electricity in a vacuum environment
Navigation systems: protection against electromagnetic pulse (EMP) interference
4. New energy industry
Lithium battery pole piece: Preventing short circuit caused by static electricity during transportation
Photovoltaic panels: Moisture and ESD protection during outdoor storage
5. Military industry
Night vision devices: protecting photoelectric sensors from electromagnetic interference.
Missile guidance systems: shielding against radar waves and static electricity threats.
6. Laboratory
Biological samples: static electricity protection during cryogenic storage
Chemical reagents: Block oxygen and humidity while preventing static sparks
