High‐Modulus Low‐Cost Carbon Fibers from Polyethylene Enabled by Boron Catalyzed Graphitization |
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| Authors: | Bryan E Barton Michael J Behr Jasson T Patton Eric J Hukkanen Brian G Landes Weijun Wang Nicholas Horstman James E Rix Denis Keane Steven Weigand Mark Spalding Chris Derstine |
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| Affiliation: | 1. Core Research and Development, The Dow Chemical Company, Midland, MI, USA;2. DND‐CAT Synchrotron Research Center, Northwestern University, Argonne, IL, USA |
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| Abstract: | Currently, carbon fibers (CFs) from the solution spinning, air oxidation, and carbonization of polyacrylonitrile impose a lower price limit of ≈$10 per lb, limiting the growth in industrial and automotive markets. Polyethylene is a promising precursor to enable a high‐volume industrial grade CF as it is low cost, melt spinnable and has high carbon content. However, sulfonated polyethylene (SPE)‐derived CFs have thus far fallen short of the 200 GPa tensile modulus threshold for industrial applicability. Here, a graphitization process is presented catalyzed by the addition of boron that produces carbon fiber with >400 GPa tensile modulus at 2400 °C. Wide angle X‐ray diffraction collected during carbonization reveals that the presence of boron reduces the onset of graphitization by nearly 400 °C, beginning around 1200 °C. The B‐doped SPE‐CFs herein attain 200 GPa tensile modulus and 2.4 GPa tensile strength at the practical carbonization temperature of 1800 °C. |
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| Keywords: | boron catalysis carbon fibers graphitization sulfonation |
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