BASF’s Rheovis range transitions to bio-based ethyl acrylate
Ludwigshafen, Germany – BASF has completed the transition to bio-based Ethyl Acrylate (EA) for its Rheovis® range manufactured at Ludwigshafen and Bradford sites. Now, the Rheovis® range has a 14C-traceable biogenic content of up to 35% according to the ASTM D6866-18 analytical standard and a reduced Product Carbon Footprint (PCF1) of up to 30% compared to versions based on fossil feedstock. This development underlines BASF’s commitment to support customers in achieving their sustainability goals. The chemical composition and technical specifications of the new bio-based products remain unchanged.
Sylvain Pascal Huguenard, Vice President of Global Business Management for Additives, BASF, commented “This feedstock switch underlines BASF Additives’ commitment to enable formulators to complete their green transition while ensuring supply reliability and efficiency. BASF’s optimized process and Verbund concept are key levers to ensure further reduction of our Product Carbon Footprint (PCF).”
Joachim Burger, Head of Sales, Additives EMEA, BASF added, “Built on BASF’s commitment to sustainable solutions, our upgraded bio-based Rheovis® products will support the development of more sustainable products. We are excited to be part of this journey with formulators and will continue to formulate the future together.”
Our recently launched HASE rheology modifiers, the biocide-free Rheovis® HS 1101 and Rheovis® HS 1153 have been intentionally developed with this higher biogenic content, providing customers with improved performance and sustainability features. In addition to the 14C-traceable biobased content, the BASF Biomass Balance (BMB) approach can be applied to further reduce the Product Carbon Footprint (PCF) of a product.
BASF offers a comprehensive portfolio of bio-based raw materials, providing solutions for various applications. This enables formulators to improve the biogenic share of their products and develop differentiated offerings that cannot be achieved with fossil resources.