Mondi is delighted to launch a new more sustainable sleeve packaging, created to replace conventional plastic shrink wrap around 1.5 litre sparkling soft drink multipacks produced by Coca-Cola HBC in Austria and keep them secure. Mondi’s Hug-IT, which keeps six bottles together during transportation, is made of Mondi’s Advantage SpringPack Plus, crowned by Guinness World Records as the strongest paper in the world.1
The Hug-IT sleeve has high tensile strength and incomparable stretchability, so it can be trusted to wrap around the six bottles tightly, keeping them upright and held together during transit – from factory site, to retailer, to the consumer’s home. It will secure 1.5-liter PET multi-packs of the Coca-Cola, Fanta, Sprite and Mezzo Mix brands and will be sold in retail outlets throughout Austria. Hug-IT is an innovative solution, and Advantage SpringPack Plus is currently the only paper on the market offering such unique capabilities, being strong enough holding the bottle bundles together as final Hug-IT solution.
Advantage SpringPack Plus is 100 % kraft paper created from wood, a renewable material. The kraft paper is made with responsibly sourced fibres, and recyclable in existing paper recycling streams: paper has one of the highest recycling rates among packaging materials in Europe (82% within the EU2) and is convenient to dispose of for consumers.
The Hug-IT solution has taken three years to complete, from conception through to planning, trialling, and getting the product onto shelf. Its development involved a number of Mondi’s divisions and cross-segment collaboration, making the most of the company’s expertise in paper packing and converting and creating more sustainable, technically advanced solutions. The sleeves are engineered on automated machinery provided by Krones, a technology group and service provider for the beverage & liquid food industry, whose swift installation and close collaboration with Mondi made the process smooth and efficient. Expert teams from Mondi, Coca-Cola HBC and Krones worked closely together to meet the challenges related to required strength and stretchability of the paper.
