X-ray Tomographic Reconstruction for Understanding Lignin-Induced Changes in the Microstructure and Properties of Polyurethane Insulation Foam

Abstract: Lignin, the most abundant aromatic biopolymer, is explored as a renewable polyol substituent and functional additive in rigid polyurethane foam (RPUF) for structural and insulation applications. The understanding of the complex microstructural changes in the RPUF caused by lignin micro-nanoparticles has been limited by traditional two-dimensional cross-sectional imaging methods (typically limited to the average cell diameters). This study reports the microstructural changes induced by the dispersion of kraft l… Show more

“…This polymer re-distribution phenomenon was also observed for relatively high lignin load incorporated RPUF. 34…”

“…This was achieved by identifying the wall signal and setting the background information to zero. The images were further processed according to the method optimised by Haridevan et al 34 with the help of IMARIS Surface Wizard which applies water shed algorithm for 3D pore reconstruction. The selected parameters were further quantified.…”

Dispersion engineering of cellulose nanofibres in polyols: for controlled microstructure of high-performance polyurethane foam

“…This polymer re-distribution phenomenon was also observed for relatively high lignin load incorporated RPUF. 34…”

“…This was achieved by identifying the wall signal and setting the background information to zero. The images were further processed according to the method optimised by Haridevan et al 34 with the help of IMARIS Surface Wizard which applies water shed algorithm for 3D pore reconstruction. The selected parameters were further quantified.…”

Dispersion engineering of cellulose nanofibres in polyols: for controlled microstructure of high-performance polyurethane foam