In today’s packaging industry, the demand for sustainable and functional materials is growing rapidly. One such innovation leading the way is water-based barrier coating paper.
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This eco-conscious solution offers a protective layer without relying on harmful plastic films or solvent-based coatings. But what exactly is it, how does it work, and why are more industries turning to it?
Let’s explore.
Water-based barrier coating is a thin, protective layer applied to paper or paperboard surfaces using a water-based formulation.
Its purpose is to resist water, oil, grease, and other contaminants—providing barrier properties traditionally achieved through plastic lamination or wax coatings.
Unlike solvent-based coatings that release VOCs (volatile organic compounds), water-based coatings are environmentally friendlier and safer to produce and use.
The coating typically consists of polymers, additives, and sometimes natural materials like starch or clay, suspended in water.
The barrier coating is applied through standard coating techniques such as rod coating, blade coating, or curtain coating. Once applied, the water in the formula evaporates, leaving behind a thin, uniform film that bonds with the paper’s surface.
This film blocks moisture, grease, and gas permeability, enhancing the durability and functionality of the paper without compromising its recyclability or flexibility.
The result is a cost-effective and sustainable barrier that still allows for printing, converting, and heat sealing—key properties for packaging applications.
Water-based barrier coatings are used across a wide range of industries where paper-based packaging is preferred over plastic:
Food packaging (e.g., burger wraps, paper cups, takeaway boxes)
Disposable tableware (e.g., plates, trays, containers)
Industrial and protective packaging
Personal care and hygiene product wrapping
Agricultural and seed packaging
With the rise of single-use items and stricter environmental regulations, water-based coatings offer a viable alternative to polyethylene (PE) lamination in many use cases.
Here’s why water-based coatings are gaining momentum:
Eco-friendly – Low VOC emissions and reduced reliance on plastic
Recyclable & Compostable – Enables easier recycling or biodegradation
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Customizable Barrier Performance – Tailored resistance to moisture, oil, or oxygen
Food Safe – Complies with global food-contact standards
Cost-efficient – Less material usage, compatible with existing coating lines
Excellent Printability – Maintains surface properties for printing and branding
These advantages make it a compelling solution for companies aiming to meet sustainability goals without sacrificing performance.
Yes. One of the strongest selling points of water-based barrier coating is its environmental advantage. It avoids fossil-based plastics, emits minimal harmful fumes during application, and can reduce packaging’s carbon footprint significantly.
Many water-based coatings are also certified for compostability and designed for repulpability, meaning the coated paper can re-enter the paper recycling stream without extra separation processes.
As global regulations tighten on single-use plastics, water-based barrier coating paper presents an ideal solution for manufacturers seeking a greener future.
Water-based barrier coating paper combines sustainability with performance, offering industries a smarter way to package, protect, and promote products.
Whether you’re in food service, retail, or manufacturing, switching to water-based solutions can enhance your brand’s environmental credentials while meeting practical needs.
For paper, recycling has higher priority over composting in the Sustainability Pyramid and the Circular Economy. This is because it guarantees that paper’s valuable fibers will be reclaimed for reuse. However, even though paper fibers can be recycled many times (up to 25 times, depending on the type of fiber and end-use), fiber degradation is a concern, as fibers tend to become shorter and weaker after multiple rounds of recycling. Because of this, fibers are sorted before processing. Screened-out fiber or waste can be incinerated at end of life for energy recovery, e.g., combustion for steam and electrical energy production, with carbon neutral emissions.
Composting offers no reuse of valuable fibers and no recovery of energy. It is "cold incineration" without utilizing or recovering the entrapped energy; it can also lead to the production of methane. Furthermore, there is no way for foreign substances to be screened out efficiently. Thus, materials such as metal, plastic, process chemicals, functional chemicals, and microplastics can be released into the environment if the compost is used as fertilizer or soil improver. Composting is only a viable alternative to recycling in cases when it is difficult to recycle, such as an item heavily contaminated with food. Composting should be viewed as an opportunity to divert food waste from landfills.
Plastic film—like polyester, polypropylene, polyethylene, or others—when laminated to paper, creates many recycling issues for paper mills. The use of laminates is increasing, and mills are having a hard time processing the increased amount of film. Film decreases the capacity of a paper mill’s pulper because it takes more time for the paper to repulp due to the plastic film protecting the fibers from water. The strong plastic film will either be sorted out using a specific drum-shaped pulper and bypass systems, or beaten down into smaller flakes, which increases the energy needed to separate the fibers from the filmic flakes.
In any case, the higher the amount of plastic films in the recycling mix, the higher the amount of waste, the higher the cost for separation, and the higher the cost for disposal. A laminated paper-plastic film is also difficult to recycle as a plastic, as the paper fibers cause contamination and are difficult to extract from the film.
Water-dispersed emulsion polymer coatings—sometimes referred to as polymeric coatings—are often used as barrier/functional coatings on paper to replace plastic film and give paper specific functionality, such as grease resistance, water repellency, moisture vapor, aroma or oxygen barrier, and heat sealing. The polymer material forms a continuous thin film that can not function as a main structural component of the final article, as it does not have structural integrity on its own; nor does it add to the structural integrity of the final product.
These water-based barrier coatings behave similarly to traditional binders used in pigment-coated papers for decades. In repulping, the water-based barrier coating particles will either stick to the fibers or fillers, or follow these appropriate fiber/filler recycle streams:
The biological (aerobic or anaerobic) and/or physiochemical treatment transforms these particles into sludge. The sludge is either incinerated or sent to a landfill. Some mills pump the sludge back into the middle layers of their board.
Barrier coatings for heat seal at very low temperatures can be tacky and create agglomerates of tacky substances known as "stickies" in the web forming and drying stages when recycled. Controlling the formation of stickies can be managed by choosing the right barrier, using sticky control measures such as masking additives, and limiting the amount of barrier coated papers added to the recycled paper mix (or by separating it with deinking cells).
Many polymer barriers are hydrophobic and attract inks in the recycling process, resulting in dirt spots. Therefore, if deinking is not part of the recycling process, it is preferable to reuse barrier-coated papers for the production of grades where color consistency is not important.
When using the standard paper waste stream, functional water-based barrier coatings have the following advantages over paper-plastic film structures like PE, PP, and PET:
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