Tobacco stems waste underwent steam explosion pulping for nanofibrillated cellulose (NFC) production.
In order to obtain NFC hydrogels, the pulp obtained by steam explosion was bleached and refined in
a grinder employing specific energy of up to 5067 kWh/t. Eucalyptus kraft pulp was processed under
the same conditions to produce NFC hydrogels, later used in order to compare with NFC hydrogels from
tobacco stems waste. According to statistical analysis, the optimum tobacco stems pulping condition was
obtained with a severity index of log 3.0 and active alkali of 16.25%. These conditions allowed obtaining
a bleached pulp with Schopper Riegler degree of 46. Electronic microscopy with field emission showed a
higher presence of nanofibers in the tobacco stems pulp than in commercial eucalyptus kraft pulp, both
after refining. Thermal analysis indicated that tobacco stems pulp degrade at lower temperatures than
eucalyptus kraft pulp. FTIR analysis did not indicate chemical bonding differences between the two pulps.