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between:
_ Transversal groundwood: Wood logs (and evidently also the
Fibers) are loaded in the magazine or pocket of the grinder transversally
(perpendicularly) to the rotational direction of the stone
(in practice the only used orientation).
_ Longitudinal groundwood: Wood logs are loaded parallel to the
Rotational direction of the stone (only applied in research studies).
Handbook of Pulp. Edited by Herbert Sixta
Copyright © 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
ISBN: 3-527-30999-3
©2006 WILEY-VCHVerlag GmbH&Co.
Handbook of Pulp
Edited by Herbert Sixta
Grinding procedures may be categorized as atmospheric grinding, pressure grinding,
And thermo grinding. The principles of each process are illustrated schematically
In Fig. 4.2.
Fig. 4.2 Principles of the grinding procedures.
4.1.2
Mechanical and Thermal Processes in Grinding
Grinding is a thermomechanical process that is divided into two parts, each of
which overlaps one another: (a) Softening and breakdown of the fiber structure;
And (b) peeling of the softened fibers from the wood matrix in the grinding zone
Softening of the Fibers
The wood logs are pressed against a rotating pulp stone, applying suitable pressure
And temperature conditions (see Fig. 4.2). Just before entering the grinding
Zone, the wood logs are still cold and thermally untreated. The stone grits pass
over the wood matrix at very high frequencies. In a so-called compression/decompression
Process, the fibers are cyclically stressed or relaxed. Depending on the
Rotational speed of the pulp stone, and also on the surface profile of the stone,
Pressure pulsations up to 40 kHz occur on the logs.
The fiber matrix is loosened due to the fatigue work done by the grits. Finally,
When they enter the boundary area between the revolving stone surfaces, the
Mechanical Pulping Processes
Fibers are peeled from the outermost layer of the softened wood, much in the
Same way that tape is torn from a paper surface. Both processes warm up the
Wood and break down the fiber structure. Due to the viscoelastic nature of the
wood, the temperature at 1–2 mm above the actual grinding zone increases very
Quickly, and this rise in temperature causes the lignin to soften. The resulting
so-called “softening temperature” depends on the water content of lignin and the
frequency. In 1963, Goring [3] demonstrated how the softening temperature of
Lignin is dependent upon the water content (Fig. 4.3).
Fig. 4.3 Softening temperature of lignin depending on water
content (according to Goring [3]).
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| Wood. Wood that has been stored under dry conditions for a longer time has a | | | The softening temperature is understood to represent the transition of an amorphous |