It is no secret that plastic packaging has become so deeply ingrained in our lives that it is almost impossible to give it up. And yes, many developments are aimed at replacing primary plastic with paper or bioplastic, many studies are conducted for the cyclical use of plastics, but nevertheless, hundreds of tons of it end up in landfills every month.

Quite often, such convenient-to-use tea bags require additional packaging in the form of a sachet. It protects the thin tea bag from external mechanical and physical impact and at the same time preserves the properties and aroma of the tea. Therefore, the requirements for the material for the outer, protective packaging are quite high.

The problem of labels that interfere with the recycling of plastic packaging has become quite acute at the moment. After all, even if the packaging itself is made of a single material and is 100% recyclable, the label must first be removed. Water-soluble adhesives and films for labels made of the same material are appearing, but all this does not simplify the process of preparing plastic for recycling.

Parfums Christian Dior becomes the first company in the cosmetics industry to use a completely plant-based PEF polymer for its primary packaging. This is the result of a three-year collaboration with Avantium, which actually developed the polymer, called Releaf.

Yes, we have written about such solutions many times. And we will probably write about them many more times. They all seem similar, but each is unique in its own way. And also, different manufacturers have different specifics of application, different levels of barrier properties, different prices and terms of purchase, finally.

Once again, ProAmpac surprises with an expansion of its portfolio of films for packaging. This time, manufacturers of goods for which an increase in the humidity level in the package is critical can rejoice. Now you can not add bags with moisture absorbers to the product packaging.

Finnish company Fortum Recycling & Waste presented its latest technology, which allows obtaining bioplastic literally from smoke. Or rather, from one of its components – carbon dioxide.