Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5178235 | Polymer | 2017 | 6 Pages |
â¢Homogeneous solutions of polyacrylonitrile (PAN) with â¤37.5 wt% lignin are prepared.â¢Lignin is shown to reduce solution viscosity, thermo-reversibility, and yield stress.â¢Lignin promotes the solution transition from liquid-like structure to solid-like structure.
Dynamic shear rheology study is conducted on the polyacrylonitirile (PAN) solution and composite solutions of PAN with up to 37.5 wt% annual plant lignin (APL) to address current barriers of PAN/lignin blend development as carbon fiber precursor. PAN/APL blends exhibit lower yield stresses, lower relaxation times, and lower viscosities than to PAN solution according to the dynamic frequency sweep measurements from â7 °C to 56 °C. Yet an increase of solution activation energy of flow is observed with the increasing lignin content in solution. This is attributed to the potential interactions of PAN and lignin. Solution loss tangents obtained from dynamic frequency sweeps between â7 °C and 56 °C at an oscillatory frequency of 100 rad/s is used to envision the effect of lignin on solution structure during fiber processing.
Graphical abstractDownload high-res image (151KB)Download full-size image