The aim of the project was to demonstrate a new biobased, renewable and economically viable carbon fibre precursor – lignin – produced in Europe with European raw material and to develop conditions for its processing into carbon fibre and structural carbon fibre composites.
Gary Foster, Senior Project Manager at Coventive Composites, explains, “Today’s carbon fibre production is based on the use of a petroleum-based raw material, polyacrylonitrile (PAN). Both the starting precursor and the process for turning it into carbon fibre are costly, with most of the PAN used in Europe being imported. The automotive sector has identified a need for a cheaper lower-grade carbon fibre to meet the demands of components in normal consumer cars. Lignin from kraft pulp mills is a green, sustainable, abundant and cost-efficient new potential carbon fibre precursor.”
The concept of this project was to develop a cost-effective biobased carbon fibre for use in reinforced composites, delivering sufficient mechanical properties for large-volume automotive applications. Reducing vehicle weight is a decisive factor for the successful fulfilment of targets regarding CO2 emissions from the automotive sector. Carbon fibre reinforced plastics have been introduced as a low-weight material replacing/complementing steel and aluminium.
GreenLight successfully developed a method for production of carbon fibre from a lignin-based precursor at the pilot-scale level. Further details, including an end-of-project flyer and presentation, ‘Lignin-based Carbon Fibres:Challenges in Process Scale-up’, regarding the project and its outcomes can be found at
GreenLight had 9 project partners from 4 European countries and covered the whole value chain from lignin production, represented by the research institute RISE and the pulp producer Södra to the final use of carbon fibre materials in cars, represented by CRF, car maker Fiat’s research unit.
The project partners also included experts on spinning (FIBRE and Fourné Machinenbau), forming of textile webs (RISE and STFI) and the combination of the textiles with plastics into composite materials (Podcomp, Coventive Composites, and RISE).
Industries: Automotive and Road Transportation