TFL and DSM - a cooperation to drive sustainable leather finishes market

Royal DSM, a global science-based company active in Nutrition, Health and Sustainable Living, and TFL establish a strategic cooperation agreement to drive the market for sustainable leather finishes. Specifically, this cooperation agreement covers the supply, as well as the research and development, of leading-edge, sustainable waterborne polyurethane dispersion (PUD) systems.

The new partnership brings together DSM’s long experience of using its science-based competences to research and develop sustainable coating solutions and TFL’s expertise in application know-how, and the deep understanding of the requirements for the leather industry, particular the automotive leather segment combines the strength of both companies. By partnering at different points in the value chain, DSM and TFL are able to further unlock the value of sustainable leather finishes and strengthen their respective market positions.

We’re confident our combined understanding and expertise will be able to meet – and exceed – the needs of major leather customers around the world.

Above all, both companies share a strong commitment to use innovative technologies to deliver sustainable solutions. Leather is a sustainable, natural product delivering unmatched performance to discerning customers. With the global leather finishing market already largely transformed to waterborne PUD systems, TFL and DSM are committed to developing next-generation sustainable PUD designs, based on renewable raw materials.

The new strategic partnership between TFL and DSM will focus to combine a very sustainable approach towards the leather finishing market while delivering even higher levels of aesthetic and functional performance. By combining TFL’s deep knowledge of the formulation and application of leather finishes and the needs of major leather customers, with the PUD systems developed by DSM – which offer excellent durability, as well as strong mechanical and chemical resistance, a range of significantly enhanced and sustainable finishing coatings will be developed.