Paper Coating
Food Packaging
As the demand for sustainable packaging grows, coated paper has emerged as a viable alternative to traditional plastic packaging. With the ability to provide durability and protection, coated paper eliminates the need for fossil-based plastics while maintaining high performance. This innovation supports environmentally friendly practices, offering a renewable and recyclable solution that reduces plastic waste and promotes a circular economy.
Coat paper with bio-based, recyclable plastics to enhance moisture resistance and sterility while maintaining sustainability in medical and sanitary applications.
Bio-based coatings improve paper’s strength and sealing properties without hindering recyclability. Ideal for medical packaging and sanitary wraps, these coatings provide necessary sterility while supporting eco-conscious manufacturing and reducing reliance on traditional plastic-based solutions.
Material
Bio-Flex F 6510 and Bio-Flex F 6514
Packaging Tubes
Food Packaging
Whether for squeezable cosmetic tubes or food-grade applications, bioplastics ensure high-quality performance, excellent barrier properties, and aesthetic appeal. Additionally, their compatibility with existing manufacturing processes makes them a seamless replacement for conventional plastics, offering a more sustainable option without compromising efficiency.
Customizable and environmentally friendly solutions with bioplastic tubes that offer versatile designs while supporting sustainability in modern packaging.
Bioplastic tubes provide flexible design options, from squeezable textures to glossy finishes, allowing brands to create appealing, user-friendly packaging. By adopting these sustainable alternatives, manufacturers reduce environmental impact while meeting consumer expectations for eco-conscious and high-quality products.
Material
Bio-Flex F 2110
Cups
Food Packaging
The production of single-use cups heavily relies on fossil-based plastics and composite materials, which necessitate the extraction of non-renewable resources. Transitioning to innovative alternatives, such as bio-based plastics or biodegradable materials, offers a promising solution. These sustainable raw materials reduce dependency on finite resources and minimize environmental impacts throughout their lifecycle, from production to disposal. Adopting such materials can pave the way for eco-friendly cups without compromising functionality, ultimately helping to mitigate the ecological footprint of our on-the-go lifestyles.
Non-recyclability of disposable cups due to plastic coatings and material composition leading to long-term environmental pollution and waste accumulation.
Many single-use cups contain plastic coatings or polypropylene (PP), making recycling difficult. As a result, most end up in landfills or as litter, with only a small fraction properly managed. Addressing this issue requires material innovation and improved waste management solutions.
Material
Terralene LD 2509 CL, Terralene PP 3509 and Terralene® HD 3505
Bottles + Canisters
Food Packaging
Plastic containers have long been valued for their durability, versatility, and lightweight design, making them indispensable in various industries. From food storage to transporting liquids, these containers provide reliable performance across countless applications. However, the environmental impact of traditional plastics has driven the search for more sustainable solutions. By transitioning to reusable and bio-based alternatives, industries and consumers can maintain reliability while reducing their ecological footprint.
Bio-based alternatives for plastic bottles and canisters that maintain strength and durability while reducing dependency on fossil-based materials for a sustainable future.
Made from renewable sources like Bio-Flex®, these bio-based plastics offer a practical and eco-friendly replacement for conventional plastics. They provide reliable packaging for liquids, chemicals, and food while supporting sustainability without sacrificing performance or functionality.
Material
Bio-Flex F 5710 and Bio-Flex F 6510
