Abstract
Water absorption capacity is a key characteristic of cellulosic pulps used for different commodities. This property is influenced by the affinity of the pulp fiber surface with water, chemical composition of the pulp, morphology, and organization of fibers in the network. In this study, surface properties of six industrial Eucalyptus bleached kraft pulps (fluff pulps) dry-defiberized in a Hammermill, which were obtained by wood pulping and pulp bleaching under different production conditions, were studied while employing dynamic water vapor sorption and contact angles measurements. The absorption properties of air-laid pulp pads were analyzed following the absorbency testing procedure and the relationship between these properties and pulp’s chemical composition and fiber network structure were assessed by multivariate analysis. The results showed that the accessibility of the fiber surface is related to the reduction of the contact angles, but, at the same time, to the longer absorption time and less absorption capacity of the fiber network. Therefore, the absorption properties of the pulps are not necessarily directly related to their surface properties. Indeed, absorptivity is related to the surface chemical composition, fiber morphology, and fiber network structure. Thus, surface carboxylic groups promote total water uptake, resulting in better absorption capacity. Greater fiber coarseness and deformations (curl and kink) provide a less wettable surface, but a more porous network with higher specific volume, resulting in more absorbent air-laid formulations.
Highlights
Besides for papermaking, wood pulp has been used in absorbent products for many years, being part of common society’s goods [1]
The proportions of xylan and cellulose were inferred from the sugar composition of pulp that is presented in Multivariate analysis between surface and capillarity absorption properties of the studied pulps and their chemical composition and fiber morphology were obtained by principal component analysis, while using JMP14 software [26]
The results of this work showed that the surface properties of industrially produced Eucalyptus kraft fluff pulp varied noticeably within the range of process conditions applied to the mill
Summary
Besides for papermaking, wood pulp has been used in absorbent products for many years, being part of common society’s goods [1]. The main quality parameters of fluff pulps are related to their absorption capacity, absorption rate, and the air-laid network strength [7,8,9]. Among the factors that influence the absorption capacity of fluff pulps, the chemical composition of the fibers, the morphology, and their arrangement in air-laid network stand out [5,6,7,8,9,10]. The importance of changes in the affinity of the fiber surface with water for the absorption capacity in relation to structural changes in the fiber network is not entirely clear. Because the conditions for the manufacture of kraft pulp (wood pulping and pulp bleaching) affect the chemical composition of the pulp and the morphology of the fibers, these conditions can cause changes in the absorption capacity of the air-laid fiber network. Fluff pulps were analyzed by capillarity absorption and thermodynamic methods, such as sorption isotherms, sorption enthalpies, and contact angle measurements
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