Tetra Pak: Doubled-Down Strategy on Fibre-based Packaging
Tetra Pak, a world-renowned provider of food packaging solutions, has recently announced an exhilarating new collaboration with the Max IV synchrotron radiation laboratory. Through this collaboration, they aim to explore the minute structure of fibre materials to create paper straws that are more dependable, food safe and recyclable than existing models. By tapping into the nanostructure‘s potential effects on production, they are hoping to bring forth a new era in eco-friendly and sustainable products.
This research is part of Tetra Pak’s ongoing effort to develop new packaging materials and technologies that are both environmentally sustainable and meet increased consumer demands for convenience and safety. Utilising cutting-edge technology like synchrotron radiation, Eskil Andreasson of Tetra Pak is able to discern how paper straw material reacts in a variety of environmental scenarios – promptly and effectively.
This research not only has the potential to create paper straws, but could also be a catalyst for new fiber-based packaging materials such as cups and cartons! These materials would be remarkably durable under any circumstance, like humidity, liquids or extreme temperatures. Simultaneously being lightweight and easily composted or recycled make them the perfect choice for sustainability! Not only is this material a more eco-friendly alternative, but it can also save money for food manufacturers since they won’t have to use additional protective coatings.
Tetra Pak’s collaboration with Max IV is an exhilarating stride towards crafting more economical and sustainable packaging solutions for food manufacturing businesses globally. By integrating innovative technology and real-time analysis of fibre material properties, they are able to produce superior paper straws as well as other types of fibre-based packaging that possess the strength to endure environmental conditions but be light enough for easy shipment.
News Credits: Tetra Pak doubles down on fibre-based packaging
Things you may like: