In the fast-paced modern life, takeaway and ready-to-eat food have become an important part of daily consumption. However, traditional plastic lunch boxes are gradually being replaced by new materials due to controversy over safety and environmental protection. Aluminum food containers quietly become a rising star in the field of catering packaging with their unique performance advantages.
The core advantage of aluminum foil tray comes from the natural safety of its raw materials. Compared with the risk of plastic lunch boxes releasing harmful substances above 65 ℃, aluminium foil roll has a melting point of up to 660 ℃ and can withstand a variety of heating methods such as ovens and steamers without chemical changes.
The characteristics of different aluminum alloys give food containers a variety of practical functions:
3003 aluminum foil has medium strength and ductility, and can be stamped into complex shapes without cracking. It can resist the penetration of soup with coating technology. This aluminum-manganese alloy has good corrosion resistance and plasticity. The dense oxide layer formed naturally on its surface can effectively block the precipitation of aluminum ions, ensuring the safety of contact with food in normal acid and alkali environments.
3004 aluminum foil improves hardness while maintaining ductility by adding 1% magnesium, which is suitable for food container designs with higher requirements for mechanical properties.
As a typical packaging foil, 8011 aluminum foil enhances barrier properties through surface treatment and prolongs the shelf life of food, which is especially suitable for perishable products such as cakes and seafood.
8006 aluminum foil optimizes the iron-silicon content to ensure thermal conductivity while reducing costs, making it an ideal choice for economical aluminum foil food container.
As a representative of aluminum-magnesium alloy, 5052 aluminum foil jumbo roll improves strength and corrosion resistance by optimizing magnesium content, and is particularly suitable for large-capacity lunch boxes that require structural support.
The thickness of these alloys is usually controlled between 0.03-0.2mm, which not only ensures high thermal conductivity for fast and uniform heating, but also meets the requirements of lightweight.
The environmental value of aluminum foil container is reflected in the entire life cycle. The production process uses cold rolling technology to reduce energy consumption, which is lower carbon than traditional injection molding. After use, container aluminum foil can be 100% recycled, and the recycling energy consumption is only 5% of the original aluminum, and the number of cycles is unlimited. Data shows that the recycling rate of aluminum is as high as 95%, making it one of the most sustainable choices in food packaging.