期刊
CELLULOSE
卷 28, 期 5, 页码 3149-3167出版社
SPRINGER
DOI: 10.1007/s10570-021-03713-0
关键词
Curl; Deformations; Fiber vulnerability; Fiber charge; Selectivity; Water retention value
资金
- RISE Research Institutes of Sweden
- STFI's Intressentforening
- Onnesjostiftelsen
The study compared the fiber properties after oxygen delignification and kraft pulping, evaluating their effects on the fibers over a range of kappa numbers. The fiber network structure was characterized using various methods, showing similarities in supramolecular structure but differences in fiber deformations. The results indicated that oxygen delignification led to more fiber deformations and changes in fiber form compared to kraft pulping.
The fiber properties after oxygen delignification and kraft pulping were studied by looking into the chemical characteristics and morphology. The effect of the two processes on the fibers was evaluated and compared over a wider kappa number range (from 62 down to15). Wide-angle X-ray scattering, nuclear magnetic resonance and fiber saturation point were used to characterize the fiber network structure. Fiber morphology and fiber dislocations were evaluated by an optical image analysis. The total and surface fiber charges were studied by conductometric and polyelectrolyte titrations. The fiber wall supramolecular structure, such as crystallinity, size of fibril aggregates, pore size and pore volume, were similar for the two processes. The selectivity, in terms of carbohydrate yield, was equal for kraft cooking and oxygen delignification, but the selectivity in terms of viscosity loss per amount of delignification is poorer for oxygen delignification. Clearly more fiber deformations (2-6% units in curl index) in the fibers after oxygen delignification were seen. Introduction of curl depended on the physical state of the fibers, i.e. liberated or in wood matrix. In the pulping stage, the fiber continue to be supported by neighboring fibers, as the delignified chips maintain their form. However, in the subsequent oxygen stage the fibers enter in the form of pulp (liberated fibers), which makes them more susceptible to changes in fiber form. Graphic abstract
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