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 (DITF, Denkendorf) has developed a novel process for the production of carbon fibers from lignin, which the institute says is environmentally friendly and cost-saving through the avoidance of solvents and the use of natural raw materials. The process is also characterized by high energy savings in all process steps of the carbon fiber production process. 

Lignin, a rigid and woody polymer that is a key structural material for plants, replaces polyacrylonitrile (PAN) for the production of precursor fibers, which are converted into carbon fibers in a second process step. According to DITF, the raw material, a waste product in paper production, is inexpensive and available in large quantities.

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The new process for producing lignin fibers is based on an aqueous solution of lignin, removing the requirement for solvents or toxic additives. For this purpose, wood is separated into its components, lignin and cellulose. A sulfite digestion process enables the production of lignosulfonate, which is dissolved in water. An aqueous solution of lignin is then the starting material for spinning the fibers.

The spinning process itself is carried out in a dry spinning process, where an extruder presses the spinning mass through a nozzle into a heated spinning shaft. The resulting continuous fibers are said to dry quickly and uniformly in the spinning shaft. Use of dry spinning, which enables high spinning speeds is said to produce more material in a shorter amount of time than what is possible with PAN fibers.

The following steps for the production of carbon fibers, namely stabilization in hot air and subsequent carbonization in a high-temperature furnace, are similar to those of the usual process when PAN is used as a precursor fiber, DITF notes. However, lignin fibers provide an advantage in that they can be stabilized particularly quickly in the oven with hot air and only require relatively low temperatures in carbonization. The energy savings in these process steps compared with PAN are said to be around 50%. The resulting fibers are homogeneous, have smooth surfaces and no adhesions, and have almost comparable mechanical properties to PAN-based carbon fibers, DITF says, in terms of strength, resistance and light weight. 

The institute notes that carbon fibers made from these water-spun lignin fibers are likely to be of particular interest for applications in the construction and automotive sectors, which benefit greatly from cost reductions in the production process.

For related information about alternatives to PAN precursor, read more about bio-based acrylonitrile for carbon fiber manufacture, or a textile-based PAN tested in thermoplastic composite tapes.