The effect of alkaline pre-treatment on cellulose pulp fiber dissolution

Abstract

This study investigates the dissolution kinetics of hydrolyzed softwood kraft pulp in several NaOH-based solvents using polarized light microscopy and differential scanning calorimetry (DSC). The target is a deeper understanding of how hornification, induced by either alkali exposure or drying, inhibits fiber dissolution. Polarized light microscopy measured the dissolution process by tracking the reduction in sample luminance, while DSC measured the energy involved in dissolution. Both techniques employed a dynamic temperature sweep, where the temperature was decreased at a constant rate over the dissolution event. Alkali pretreatment in 10% or greater NaOH solution severely diminished the fiber dissolution in all solvents. Oven drying at 150 °C reduced the sample swelling compared to room temperature-drying, which is consistent with earlier hornification studies. However, oven drying did not reduce the dissolution parameters.