Coming unstuck: can glue that lets go solve the global packaging problem?
As we become increasingly aware of our environmental footprint and set ever higher recycling targets, the ability to collect and sort ‘flexible packaging’ is vital
There are few things in life as ubiquitous as glue. It is so ever-present as to be almost invisible. Actually, most of the time, it is. It holds our furniture together, keeps nappies on babies and false eyelashes on lids. It bonds together parts of aeroplanes and cars and is used for almost every type of packaging you can think of: cardboard boxes, jar labels and all manner of plastic wrapping.
And yet, when it comes to responsibly disposing of packaging, the key property of glue – its stickiness – is its fundamental flaw. Although usually no more than 5% of the total weight of packaging, adhesives can cause challenges at the recycling stage. With the packaging recycling target at 70% in the UK for 2025 – the 2020 target is 60% – it’s vital that technologies and systems are developed to ensure these targets are met, not least by making sure that packaging is designed with recycling in mind. And that includes looking at the role of adhesives.
As consumers become increasingly aware of humankind’s environmental footprint, and pressure grows for companies to devise solutions in line with a circular economy, scientists and researchers in labs globally are taking a completely fresh look at packaging design.
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Graham Houlder, project coordinator for the pan-European project Ceflex, a consortium of companies working towards the sustainable design and recycling of flexible packaging, says: “The issue with adhesives and recycling is that the chemistries of some of those adhesives can create quality issues when you recycle.”
One particular problem is that of flexible packaging, which in the UK has one of the lowest recycling rates.
So what is flexible packaging? Sadly, the type that often ends up in the bin. It’s things such as cat and baby food pouches, and toothpaste tubes – generally, anything that doesn’t spring back to its original shape when twisted or bent. This kind of packaging is likely to be made from layers of different materials held together with adhesive, making them difficult to recycle.
Houlder says that, in the past, flexible packaging was less of an issue as the UK was able to meet its recycling target without including this difficult-to-recycle packaging. “It costs more to collect, sort and recycle flexible packaging than it does a big, rigid milk bottle so, in the interests of keeping costs down, the UK decided that they wouldn’t collect and sort it,” he says.
Although many European countries do collect flexible packaging, analysis by the BBC found that only 7% of UK households could put plastic pouches out for recycling, while 73% of food tubs can be collected.
A target of 65% of household waste recycled by 2035 has been set, while the current target stands at 50%.
Ceflex’s goal is for there to be an established collection, sorting and reprocessing infrastructure for flexible packaging across Europe by 2025. Some of the targets set out in the UK’s circular economy package – an action plan that ensures waste and resource use are minimised, and when a product reaches the end of its life, it is used again to create further value – will mean that more of the plastic we normally throw away should go for recycling instead, although there is a lot to be done before we get there. A target of 65% of household waste recycled by 2035 has been set, while the current target stands at 50%.
So how is industry helping to prevent packaging from going to landfill? It’s all well and good to have higher recycling targets, but products must be designed so that they can be recycled.
In three years, a system called extended producer responsibility (EPR) will come into force in the UK, which will require producers of plastic to pay fees to cover its responsible disposal. Houlder hopes we’ll see a change for flexible packaging then. “When the EPR system is launched in 2023, we’re hoping flexible packaging will be collected and sorted,” he says.
So while the UK lags behind many other European countries in this regard, this gives us a small grace period to ensure that when we do introduce widespread collection of flexible packaging, it won’t be for nothing.
One company on the case is Henkel, the consumer goods company behind such household names as Schwarzkopf and Pritt, and a founding partner of Ceflex. One of its three business units centres around the development and production of adhesive technologies. “What we’re doing is establishing a set of adhesives that are optimised for recycling, both for things that have been recycled for a long time – let’s say cardboard – and also for plastics,” says Dennis Bankmann, senior manager circular economy at Henkel Consumer Goods and Packaging Adhesives.
Several of Henkel’s projects involve creating, ironically, a glue that can unstick. Houlder recalls a meeting he had with Bankmann a few years ago when such a concept was bandied around. “I said to him: ‘Why can’t you make an adhesive that, under certain conditions, just lets go and we separate the two incompatible materials in the recycling process?’ He said he’d worked for Henkel for 10 years and no packaging manufacturer had ever asked him to make an adhesive that lets go!”
But today, that is exactly what they have created. Henkel has joined up with the recycling technology startup Saperatec, which has designed a process for recycling flexible packaging that has an aluminium layer – often found in pet food pouches or bags for coffee beans. Bankmann says that in Germany, where flexible packaging is collected for recycling, typically only the aluminium portion of the packaging could be recovered, not the plastic.
Saperatec’s technology means both the aluminium and plastic layers of your coffee bean bag can be recycled, and the glue holding these layers together is optimised for this process. Effectively, it debonds so the layers can come apart. “The debonding allows you to recover more [materials],” Bankmann says. “It will really be the first commercial operation of this kind in Germany.”
The adhesives developed with Saperatec’s recycling technology in mind is part of Henkel’s RE range, adhesives designed specifically with a view to recyclability, either through their compatibility with recycling, ability to debond, or enabling innovative designs.
Henkel has also developed, as part of its EPIX technology platform, materials that function beyond bonding, used primarily with paper-based products. Henkel recently launched the EPIX mailer that does not have an inner plastic lining, and is curbside recyclable. The EPIX material provides a protective layer that allows the paper pulp to recover during recycling. Additional products from the EPIX range could also be applied to things such as paper, cups or food wraps, to replace alternatives that sometimes have a plastic layer or are plastic themselves, and therefore cannot be recycled. Functional properties of EPIX materials, including thermal insulation and barrier properties, make them an attractive swap.
Choosing a paper-based product with such functional properties, for example a paper mailer that does the same job as one lined with plastic bubble wrap, could be a smart choice in places such as the UK where paper is commonly collected for recycling. And when can we see a wider range of materials collected, specifically soft plastics? Houlder points out that in order for 65% of household waste to be recycled by 2035, flexible plastics will need to start being collected. “As the targets go up and we’re increasingly circular and trying to stop the leakage [of plastic] into nature and the ocean, you have to collect and sort flexible packaging,” he says.