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This is the warning from Aquapak, the polymer technology specialist, as it publishes a new whitepaper which explores how recyclability can be designed into fibre-based packaging using fully soluble bio-digestible barrier systems.
The pressure on brands and retailers to reduce plastic use has meant a drive towards paper-based packaging which has a good pedigree when it comes to sustainability and recycling and is perceived positively by consumers. However, the coatings required to give paper the packaging functionality required for food, drink and household goods, are not easily recyclable and mean that the paperboard is rejected because paper mills cannot process the paper and plastic combinations. Instead, they are incinerated or go to landfill.
Aquapak is concerned that the current labelling proposals are a compromise to continue the use of existing materials but are not enough to drive real change and improve recycling rates. This is because the recyclability definitions have the potential to shut out much-needed innovation which can provide a route to genuine recycling even with the increased use of coated paper.
It is, therefore, calling on the Government to consider an alternative model to the ‘percentage plastic used’ in paper packaging such as the percentage paper recovered model favoured by Italy and Germany, for example. This will encourage the design of paper and board-based packaging for recycling and supports the circular economy by keeping more paper fibre in use.
John Williams, Chief Technical Officer at Aquapak and co-author of the first in this series of whitepapers on this subject, comments: “It is very positive that the Government is looking at material waste streams but there is a risk that the one-size fits all approach will mean a disconnect between what recyclability means and what is physically possible to recycle.
“We are concerned that items under the % will now be considered recyclable, skewing recycling figures and leaving the paper mills to deal with more rejects and waste. The ‘fully recyclable’ claim effectively becomes ‘green wash’ – as even paper combined with a very low levels of unrecyclable plastic will be rejected.
“The industry needs to choose the right materials in the first place and construct materials differently to provide the functionality needed but also with end of life and 100% recyclability in mind. This creates the genuine circular economy and value chain.”
Aquapak has developed a novel biodegradable, non-toxic and water-soluble polymer called HydropolTM which is three times stronger than alternatives and is designed to be used in existing thermo-processing equipment, giving it a wider range of applications. HydropolTM enables up to 100% paper/board recovery whatever the percentage packaging makeup.
The base plastic is currently used for dishwasher tablets, ingestible pill casings and soluble stitches. HydropolTM ‘s resistance to low temperature solubility and high barrier to elements adds functionality, providing a wider range of uses. It can be recycled, re-pulped, composted and is distinctively compatible with anaerobic digestion. Furthermore, if unintentionally released into the natural environment, HydropolTM – which is non-toxic and marine safe – will dissolve and subsequently biodegrade, leaving no trace.
Blown film products commercially available and made from HydropolTM include garment bags, ESD bags, organic waste disposal bags and laundry bags for infection control. Its solubility makes it easy to separate from other materials, simplifying the confusing recycling options that exist for different packaging.
Extrusion coatings and laminates for paper/board applications are at customer production trial stage, including a number of home delivery and ecommerce applications, packaging for dried pet food, snacks, cooked meat and convenience food applications.
Other applications under development with customers and development partners include injection mouldings and injection moulded parts such as golf tees, non-woven fibre for applications such as wet wipes and cellulose combinations for thermoformed trays.
For more information go to www.aquapakpolymers.com