Anti-static inner and outer coatings help release static charge faster
Surface resistance reaches 10^6-10^10 Ω
Helps reduce the chance of charge accumulation around sensitive parts
Suitable for electronics that require controlled ESD packaging during storage and transport
Aluminum foil layer reflects and absorbs electromagnetic waves
Shielding effectiveness is over 60 dB
Helps form a protective barrier around the packaged item
Supports safer handling of components exposed to complex production or shipping environments
Optional NY layer improves puncture resistance
CPE inner layer provides stable heat sealing and good tensile strength
Better resistance to bag damage during packing, stacking, or movement
Helps lower the risk of packaging failure caused by sharp edges or repeated handling
Easy to convert into practical bag formats for different component sizes
Smooth surface can support printed instructions, warnings, or identification marks
Clean silver appearance helps present products in an organized, professional way
Available for custom size and structure requirements
A shielding bag performs well because each layer has a clear job. Instead of relying on one material alone, this composite construction combines several materials to solve several packaging problems at once.
Layer | Material | Main Function |
|---|---|---|
Outer Coating | Antistatic polymer materials | Dissipates static electricity |
Outer Layer | PET | Supports printing, improves strength, helps isolate air |
Middle Layer | AL | Provides electromagnetic shielding and blocks light, gas, and moisture penetration |
Barrier Layer | NY (optional) | Improves puncture resistance and supports oxidation prevention and vacuum packaging |
Inner Layer | CPE | Supports heat sealing and provides good tensile strength |
Inner Coating | Antistatic polymer materials | Dissipates static electricity |
PET adds mechanical support and a cleaner printable surface
AL serves as the key shielding and barrier layer
NY makes the bag more resistant where tougher packaging is needed
CPE gives dependable sealing performance for production packing lines
This layered construction helps the bag do more than simply hold a part. It helps protect performance, appearance, and handling safety at the same time.
Item | Specification |
|---|---|
Product Name | ESD Shielding Antistatic Bags for Electronic Components |
Main Material Structure | PET/AL/CPE, PET/AL/NY/CPE or similar composite shielding material |
Surface Resistance | 10^6-10^10 Ω |
Shielding Effectiveness | Over 60 dB |
Outer Coating | Antistatic polymer materials |
Outer Layer | PET |
Middle Layer | AL |
Barrier Layer | NY (optional) |
Inner Layer | CPE |
Inner Coating | Antistatic polymer materials |
Core Functions | Static dissipation, electromagnetic shielding, moisture/light/gas barrier, heat sealing |
Optional Processing | Printing, custom size, custom thickness, vacuum packaging support |
These bags are suitable for more than one stage of product handling. They can be used from incoming part storage to outbound shipping, helping maintain packaging consistency across the workflow.
Integrated circuits and semiconductor devices
PCB and PCBA packaging
Hard drives, SSDs, and storage modules
Connectors, sensors, relays, and electronic assemblies
Precision electronic spare parts
Export packaging for static-sensitive products
Vacuum packaging for oxidation-sensitive items
Warehouse and line-side packaging for components in controlled environments
Helps reduce invisible electrostatic damage during transport
Supports cleaner storage of sensitive parts
Makes packaging more suitable for moisture-aware handling
Improves confidence during long-distance shipment and internal transfer
Not every component fits a standard bag, and not every packaging line uses the same process. That is why customization is an important part of shielding bag supply.
Custom length and width
Custom thickness
Open top or heat-seal format
Optional ziplock style for repeated access
Custom warning print, logo, or handling marks
Different laminate structures based on barrier and strength needs
Better fit means less wasted space and neater packaging
More accurate bag sizing can improve packing speed
Printed identification can reduce mix-ups on busy production lines
Structure selection helps match the bag to real product risk, not just appearance
Choosing the right shielding bag supplier is not only about price. It is about whether the packaging performs consistently when your products are on the move.
We understand static control materials and the practical packaging needs of electronic components
We offer composite structures designed around real protection requirements
We support custom size, thickness, and printing requests for different packaging projects
We focus on balancing shielding performance, mechanical strength, and sealing reliability
Our products are designed to help customers reduce hidden packaging risk, not just purchase another plastic bag
More dependable protection for sensitive parts
A cleaner and more professional packaging presentation
Better flexibility for different products and packing methods
Easier sourcing for both regular packaging and customized requirements
An anti-static bag mainly helps reduce static generation or accumulation. A shielding bag goes further by adding a conductive or metalized barrier that helps protect the contents from external electrostatic discharge. For sensitive electronic components, shielding bags are usually the safer choice.
Yes. When the structure includes the appropriate barrier layer, such as NY, the bag can be suitable for vacuum packaging and oxidation-sensitive applications.
Yes. Custom size and thickness options are available so the packaging can better match your component dimensions and handling process.
Yes. The PET outer layer can support printing for logos, warnings, instructions, or identification marks.
They are widely used for ICs, PCBs, electronic modules, storage devices, connectors, sensors, and other electrostatic-sensitive components.
The aluminum layer is the core shielding barrier. It helps reflect and absorb electromagnetic waves while also improving barrier performance against light, gas, and moisture.
Anti-static inner and outer coatings help release static charge faster
Surface resistance reaches 10^6-10^10 Ω
Helps reduce the chance of charge accumulation around sensitive parts
Suitable for electronics that require controlled ESD packaging during storage and transport
Aluminum foil layer reflects and absorbs electromagnetic waves
Shielding effectiveness is over 60 dB
Helps form a protective barrier around the packaged item
Supports safer handling of components exposed to complex production or shipping environments
Optional NY layer improves puncture resistance
CPE inner layer provides stable heat sealing and good tensile strength
Better resistance to bag damage during packing, stacking, or movement
Helps lower the risk of packaging failure caused by sharp edges or repeated handling
Easy to convert into practical bag formats for different component sizes
Smooth surface can support printed instructions, warnings, or identification marks
Clean silver appearance helps present products in an organized, professional way
Available for custom size and structure requirements
A shielding bag performs well because each layer has a clear job. Instead of relying on one material alone, this composite construction combines several materials to solve several packaging problems at once.
Layer | Material | Main Function |
|---|---|---|
Outer Coating | Antistatic polymer materials | Dissipates static electricity |
Outer Layer | PET | Supports printing, improves strength, helps isolate air |
Middle Layer | AL | Provides electromagnetic shielding and blocks light, gas, and moisture penetration |
Barrier Layer | NY (optional) | Improves puncture resistance and supports oxidation prevention and vacuum packaging |
Inner Layer | CPE | Supports heat sealing and provides good tensile strength |
Inner Coating | Antistatic polymer materials | Dissipates static electricity |
PET adds mechanical support and a cleaner printable surface
AL serves as the key shielding and barrier layer
NY makes the bag more resistant where tougher packaging is needed
CPE gives dependable sealing performance for production packing lines
This layered construction helps the bag do more than simply hold a part. It helps protect performance, appearance, and handling safety at the same time.
Item | Specification |
|---|---|
Product Name | ESD Shielding Antistatic Bags for Electronic Components |
Main Material Structure | PET/AL/CPE, PET/AL/NY/CPE or similar composite shielding material |
Surface Resistance | 10^6-10^10 Ω |
Shielding Effectiveness | Over 60 dB |
Outer Coating | Antistatic polymer materials |
Outer Layer | PET |
Middle Layer | AL |
Barrier Layer | NY (optional) |
Inner Layer | CPE |
Inner Coating | Antistatic polymer materials |
Core Functions | Static dissipation, electromagnetic shielding, moisture/light/gas barrier, heat sealing |
Optional Processing | Printing, custom size, custom thickness, vacuum packaging support |
These bags are suitable for more than one stage of product handling. They can be used from incoming part storage to outbound shipping, helping maintain packaging consistency across the workflow.
Integrated circuits and semiconductor devices
PCB and PCBA packaging
Hard drives, SSDs, and storage modules
Connectors, sensors, relays, and electronic assemblies
Precision electronic spare parts
Export packaging for static-sensitive products
Vacuum packaging for oxidation-sensitive items
Warehouse and line-side packaging for components in controlled environments
Helps reduce invisible electrostatic damage during transport
Supports cleaner storage of sensitive parts
Makes packaging more suitable for moisture-aware handling
Improves confidence during long-distance shipment and internal transfer
Not every component fits a standard bag, and not every packaging line uses the same process. That is why customization is an important part of shielding bag supply.
Custom length and width
Custom thickness
Open top or heat-seal format
Optional ziplock style for repeated access
Custom warning print, logo, or handling marks
Different laminate structures based on barrier and strength needs
Better fit means less wasted space and neater packaging
More accurate bag sizing can improve packing speed
Printed identification can reduce mix-ups on busy production lines
Structure selection helps match the bag to real product risk, not just appearance
Choosing the right shielding bag supplier is not only about price. It is about whether the packaging performs consistently when your products are on the move.
We understand static control materials and the practical packaging needs of electronic components
We offer composite structures designed around real protection requirements
We support custom size, thickness, and printing requests for different packaging projects
We focus on balancing shielding performance, mechanical strength, and sealing reliability
Our products are designed to help customers reduce hidden packaging risk, not just purchase another plastic bag
More dependable protection for sensitive parts
A cleaner and more professional packaging presentation
Better flexibility for different products and packing methods
Easier sourcing for both regular packaging and customized requirements
An anti-static bag mainly helps reduce static generation or accumulation. A shielding bag goes further by adding a conductive or metalized barrier that helps protect the contents from external electrostatic discharge. For sensitive electronic components, shielding bags are usually the safer choice.
Yes. When the structure includes the appropriate barrier layer, such as NY, the bag can be suitable for vacuum packaging and oxidation-sensitive applications.
Yes. Custom size and thickness options are available so the packaging can better match your component dimensions and handling process.
Yes. The PET outer layer can support printing for logos, warnings, instructions, or identification marks.
They are widely used for ICs, PCBs, electronic modules, storage devices, connectors, sensors, and other electrostatic-sensitive components.
The aluminum layer is the core shielding barrier. It helps reflect and absorb electromagnetic waves while also improving barrier performance against light, gas, and moisture.
