|
Item Name |
Food Grade Plastic Mylar Food Fags Wholesale |
|
Bag Type |
Pillow bag |
|
Key Feature |
Sealed on the back-side |
|
Material |
PET/AL/PE, or PET/VMPET/PE |
|
Size |
Customized, based on the products packed inside |
|
Thickness |
Customized, based on the products packed inside |
|
Printing |
Gravure printing up to 9 colors |
|
MOQ |
Depending on the size of the bag, normally 10,000 pieces |
|
Application |
All kinds of snack food packaging, such as biscuits, potato chips, candies, nuts, dried fruits, pastries, beef jerky, fish jerky, etc. |
|
Samples |
Stock samples are available free of charge, shipping cost is at the customer's account |
|
Packaging |
Standard export cartons, or customized |
|
Delivery Time |
According to the order quantity, usually 2-4 weeks after order confirmed and deposit received |
Features
Made of high quality mylar, aluminum foil, and food-grade PE material, this food storage pillow pouch is sealed on the back side and has a nice flat appearance. It also features excellent barrier properties, keeping food fresh long enough for consumption or use.
1. Barrier properties: Provided with excellent puncture resistance and good barrier again light, oxygen, moisture, and other environmental elements. This helps to preserve the quality and freshness of the food.
2. Safety: Made from food-grade materials that are safe for storing and packaging food. They do not contain harmful chemicals or substances that can contaminate the food.
3. Versatility: Comes in a variety of sizes, shapes, and styles, making them suitable for a wide range of food products, from dry goods to fresh produce to frozen foods.
4. Customizable: Can be customized with logos, branding, or other designs, helping businesses to promote their brand and stand out from the competition.
Benefits
1. Prevent waste: Plastic food packaging bags extend the shelf life of food products by protecting them from damage and contamination, and they can also assist with portion control to prevent food waste.
2. Display information: Plastic food packaging bags can display information about the correct way to store, prepare and serve a product.
3. Convenience: Plastic food packaging bags are convenient for both the manufacturer and the end-user, as they are easy to handle, store, and transport.
4. Eco-friendly: Many plastic food packaging bags are designed to be eco-friendly and can be recycled or composted after use, helping to promote sustainability.
Overall, the above features and benefits of pillow pouch plastic food packaging bags make them an excellent choice for packaging and storing food products.
Commonly Used Material Structure of Food Bag:
PET/AL/PE, PET/VMPET/PE,
BOPP/AL/PE, BOPP/VMPET/PE,
PET/BOPA/PE, BOPP/BOPA/PE,
PET/Kraft Paper/PE, BOPP/Kraft Paper/PE
When custom-making a plastic bag, the material structure should be designed based on the intended use and the desired properties of the bag. Generally, the material structure of a plastic bag consists of a substrate layer(Outer layer), a barrier layer(middle layer), and a sealant layer (inner layer). The substrate layer provides the bag with strength and shape. The barrier layer provides protection from moisture, oxygen, and other environmental factors. The sealant layer provides a secure closure and prevents leakage. Here are some steps to consider when designing the material structure of a plastic bag:
1. Determine the intended use of the bag, such as whether it is used to store food, pharmaceutical, clothing, electronics, or other items.
2. Identify the specifications and requirements of the packaging, such as the size, shape, weight, and volume of the contents to be packaged, as well as the storage and transportation conditions.
3. Select the appropriate materials based on the intended use, specifications, and requirements of the packaging, considering factors such as strength, durability, flexibility, and barrier properties. Common materials used in plastic pouches and bags include polypropylene (PP), polyethylene (PE), polyethylene terephthalate (PET), aluminium foil, and nylon.
4. Determine the number and arrangement of material layers needed to achieve the desired properties and performance. This may depend on factors such as the type of product being packaged, the level of protection required, and the intended use of the packaging.
5. Consider the manufacturing process and any additional features that may be needed, such as printing, sealing, or adding zippers or spouts.
6. Test and evaluate the material structure to ensure that it meets the specifications and requirements, and make any necessary adjustments or improvements.
Overall, designing the material structure of a plastic pouch or bag requires careful consideration of the specifications and requirements, as well as the properties and performance of the materials and the manufacturing process.
