Product Description
Packaging Bags - ESD Shielding Bag
Introducing our ESD Shielding Bag, the perfect solution for cross-border e-commerce platforms. Designed with a static dissipative coating/metalized PET/PE/static dissipative coating material structure, this semi-transparent bag offers exceptional protection for your valuable items.
With a thickness of 0.075mm/3mils, our ESD Shielding Bag ensures durability and reliability. The zip lock/open top sealing style allows for easy access and secure closure, while the 2 sides or 3 sides sealing size provides flexibility to meet your specific needs.
Customize your packaging with our printing options or choose the sleek and professional look of a plain design. The surface resistance of e06--e09 guarantees excellent anti-static and electrostatic shielding performance, preventing electrostatic accumulation.
Featuring a shielding energy of less than 20nJ, our ESD Shielding Bag creates a Faraday cage induction cover effect, safeguarding your items from any potential damage. Trust our packaging bags to provide the utmost protection during cross-border transportation.
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Our Advantages
1.The kind of bag can keep static-sensitive components away from the potential static danger to the largest extent.
2.Its special layer structure can create such effect as an inductive cover to separate the goods inside from the static field.
3.The inner layer can remove the static and avoid static generation inside the bag.
4.This kind of hot seal bag is translucent, so the goods inside can be easily recognized from outside.
5.The ESD shielding bags of Anti-static value is 10^6~10^11Ω.
6.The esd shielding bags can be customized according to the customer's request.
An anti-static bag is a packaging material used to protect electronic components from static damage. It is composed of multiple layers of materials, including a conductive layer, an insulation layer, and an anti-static layer.
The working principle of anti-static bags is to eliminate static electricity through the conductive materials inside them. These conductive materials are usually made of metalized films or conductive coatings, which have good conductivity and can guide static electricity into the ground. When electronic devices come into contact with anti-static bags, static electricity is directed to the bottom of the bag and released to the ground, thereby avoiding damage to electronic devices caused by static electricity.
In addition to conductive materials, anti-static bags also have an anti-static layer, which can prevent static electricity from accumulating inside the bag. The anti-static layer is usually made of conductive fibers or particles, which can absorb and disperse static electricity, thereby protecting electronic devices inside the bag.
The design of anti-static bags also considers sealing. To prevent pollutants such as static electricity and dust from entering the bag, anti-static bags usually adopt a self sealing design or are equipped with reusable sealing clips. This can ensure the integrity and reliability of the packaging, and prevent static electricity from causing damage to electronic devices.
When using anti-static bags, attention should be paid to the correct operation method. Firstly, the electronic device should be placed in an anti-static bag, and then the bag opening should be sealed. Before opening the anti-static bag, it should be grounded to eliminate static electricity. In addition, during handling and transportation, anti-static bags should be avoided from being exposed to high static environments to prevent damage to electronic devices caused by static electricity.
Overall, anti-static bags are an effective packaging material for electronic devices, which can protect them from static damage. When selecting and using anti-static bags, factors such as equipment type, size, weight, and transportation conditions should be considered to ensure the selection of the most suitable packaging solution.