TotalEnergies Lubrifiants’ 20-liter premium lubricant cans made in France and Belgium will be fitted with the new closures made from 50% PCR material.
Fully embodying a circular/closed-loop approach, the raw material processed by BERICAP into can closures for TotalEnergies Lubrifiants comes from TotalEnergies’ own circular polymer range RE:clic. rPE57525 combines mechanically recycled polyethylene with a high-performing booster to achieve virgin-like performances. By switching from the current DIN 60 standard closure to DIN 60 ECO, weight savings come to 25%.
TotalEnergies Lubrifiants aims at reducing its consumption of virgin plastic by gradually integrating the new recycled closures on its various lubricant ranges. This innovation is in line with both partners’ strategy and commitment to contributing to a circular economy.
Carsten Pfromm, Business Development Director Industrial at BERICAP, said: “At BERICAP we are committed to a long-term strategy of contributing to a circular economy by developing user friendly, resource-conserving and recyclable closures. For that reason we are more than happy to collaborate with partners such as TotalEnergies Lubrifiants. The new DIN 60 closure for the 20-liter packaging is another example of weight reduction without sacrificing quality or user friendliness. 25% less weight and the use of PCR makes a significant contribution to the reduction of our carbon footprint and the advancement of closed-loop material cycles. We can also offer other closures such as DIN 45 and 51 in PCR.”
Emir Cetin, Global Packaging Manager at TotalEnergies Lubrifiants, said: “Our collaboration with BERICAP on this range of 20-liter packaging closures demonstrates our shared commitment to circular economy. We are excited to begin using these new closures made with 50% recycled plastic. This initiative will set a new standard for sustainability in the lubricant packaging cap industry.”
Olivier Greiner, Vice President, Polymers Europe & Orient at TotalEnergies, said: “We are committed to helping our partners achieve their sustainability goals and to addressing the challenge of end-of-life plastics. This development responds to the growing demand for more innovative and sustainable plastics and fully contributes to our ambition to reach one million tons of circular polymers a year by 2030.”
