Technological watch

Clariant and Floreon collaborate to expand high-performance-biopolymer applications

Clariant’s Additives business and Floreon-Transforming Packaging Limited announce a new collaboration to further extend the performance properties and market potential of biopolymers, whilst preserving their environmental benefits.

By integrating the benefits of Clariant’s additives with Floreon’s proprietary material solutions, the collaboration aims to open up additional possibilities for plastic manufacturers and brand owners to consider biopolymers as a viable, low carbon footprint alternative to fossil-based plastics for both single-use and durable applications.

Floreon develops and markets proprietary compounds based on PLA and containing 70-90% renewable, plant-based raw materials, thus containing carbon sequestered from the atmosphere by plants. They are typically mechanically tougher than traditional PLA and can deliver significant energy savings in processing. Floreon compounds are recyclable and they can also be composted via industrial composting.

Clariant’s industry-leading portfolio of sustainable additives includes a wide range of bio-based additives, which reliably deliver both high performance and sustainability to the plastics value chain. Introduced at the K 2019 Plastics Trade Fair under the Exolit® OP Terra, Licocene® Terra and Licocare® RBW Vita trade names, they help to reduce fossil resource intensity and enable more sustainable material choices. Clariant’s experts will support the Floreon development team to enhance the performance possibilities and processing characteristics of bioplastics.

The scope of benefits is vast. Examples include achieving less energy use and faster cycle times by increasing the processing efficiency or adding completely new properties to the material. Product manufacturers will have the possibility to tailor compounds to suit specific processing technologies and applications, including in some cases those where bioplastics have so far not been able to meet the challenges of demanding conditions or environments.

Publication date: 20/03/2020

Smart Extrusion

      

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 870292.