NO136583B - - Google Patents

Description

The present invention relates to mechanical wood pulp with a high water absorption rate, as well as a method for producing such a pulp.

Mechanical pulp is a general term for types of pulp obtained by mechanical defibration of different types of wood, for example with the help of grinding stones or disc refiners, possibly after a mild chemical treatment.

As mechanical pulp is a relatively inexpensive product, compared to cellulose pulps obtained by chemical digestion of wood, such pulps have been widely used as a raw material in the production of newsprint, magazine paper etc. However, as the grinding pulp exhibits the unfortunate property that it undergoes " self-gluing" when storing, it has previously been necessary to store

and transport mechanical pulp in a moist state, or dry it in a special way, for example by the so-called "flash-drying method". As a result of the "self-gluing", mechanical pulp will exhibit more or less hydrophobic properties after storage, depending on storage time, resin content, storage conditions etc., which makes further handling of such pulp difficult when it is to be further refined.

Because of "self-gluing", mechanical pulp has only been used to a modest extent for absorption purposes, for example in nappies, sanitary napkins, tampons, towels and similar products, for which purposes highly refined, bleached celluloses have largely prevailed.

•If the resin can be removed from the mechanical pulp, it has been shown that mechanical pulp can also be used with advantage for the above-mentioned purposes, as stated in Norwegian patent : no. 124.193. According to this patent, the resin can be removed from the mass, for example by extraction with acetone, whereby one is obtained

product with good absorption properties. However, an industrial extraction process is a relatively complicated and expensive process, which requires a large capital investment in extraction equipment, recycling equipment, etc. Acetone extraction of mechanical pulp has also previously been proposed to improve the mechanical pulp's strength properties and to make the pulp is more easily digestible in the subsequent refining process (Brandal & Lindheim, Pulp & Paper Mag. Can. 67 T 431, 1966).

It has now surprisingly been shown that it is possible to treat

a mechanical mass so that it retains its original hydrophilic properties during aging, so that a mechanical mass treated according to the present invention will remain hydrophilic when stored and thus easy to break up during the subsequent processing. It has further been shown that such a pulp is excellently suitable for absorption purposes, this despite the fact that the new treatment method has little effect on the resin content of the mechanical pulp.

The new method comprises a treatment or impregnation of the mechanical pulp with a buffer, which buffers in the pH range 6-10, preferably 7-9. Suitable buffers are alkali metal salts and ammonium salts of, for example, phosphoric acid, carbonic acid, citric acid, tartaric acid, etc. The buffer is added to the mechanical mass, preferably in the form of an aqueous solution and in such a quantity that the mechanical mass is supplied with at least 0.2% by weight, calculated on

dry weight of the mass, preferably 0.5% or more.

Such treatment of the mechanical pulp with an aqueous solution of the puffer is very cheap and easy to carry out. The addition can take place in several places during the production of the mechanical pulp, depending on the product's area of use and available equipment. The addition can, for example, take place during pulp production in a refiner or grinding wheel, in the paper machine's waste water system, in the glue press, by spraying during or after sheet formation, injection into the pulp, for this to eventually be converted into pulp bales. The new treatment method can thus be carried out with available equipment and can thus be applied in already existing production facilities. With the new method, for example, it will be possible to produce absorbent materials from mechanical masses, which means significant savings vis-à-vis highly refined cellulose products. Seen from a resource and environmental perspective, the method represents major self-evident advantages.

In what follows, the invention will be illustrated with the following examples, which show the effect of the new method of treatment.

Different pulp types were treated with the puffer both by spraying on and by dipping in the puffer solution. The dry matter content of the pulps for treatment or spraying with the buffer solution varied between 25% and 90% dry matter. After treatment, the pulp was dried in a cyclone and fluffed (in a Wenneberg mill). Part of the thus puffed and fluffed mass was artificially aged at 105°C for 1 hour, after which the mass was allowed to stand for 30 - 60 minutes at room temperature for the water absorption of the aged mass to be determined. The water absorption of unaged pulp and untreated pulp was also determined.

Determination of the water absorption rate was carried out in these experiments by distributing 10 g of air-dry, fluffed mass evenly in a metal net (metal basket with dimensions 7 cm x 20 cm x 1 cm) which was placed in a container containing 200 ml of water. The time it takes from the moment the metal mesh is placed in the container and until all the pulp is thoroughly moistened with water is a measure of the pulp's water absorption rate.

The results obtained are reproduced in the following table. As can be seen from the above results, the treatment according to the present invention achieves a significantly improved water absorption rate compared to untreated pulp. An exception, however, is the borate buffer, which apparently for unaged pulp has a lowering effect on the absorption rate, but after aging, the aged, borate-buffer-treated pulp exhibits a greater absorption rate than untreated pulp.

It will further appear that pulps treated with the other buffers with regard to the water absorption rate are almost not affected by artificial ageing, as a difference of 1 sec. is probably well within the margin of error for this particular test methodology.

For the sake of comparison, it can be mentioned that a highly refined cellulose under the corresponding conditions exhibits a water absorption rate of the order of 5 seconds.

The mechanical masses according to the present invention

are therefore comparable in terms of water absorption rate to highly refined cellulose pulps, further as they preserve their hydrophilic properties during ageing," they allow themselves to be easily broken up during any further processing, for example in a paper mill that uses mechanical pulp as a raw product.

Claims (4)

1. Mechanical wood pulp that can easily be broken down in water with a high absorption rate, characterized in that it contains at least 0.2% by weight, preferably at least 0.5% by weight, calculated on the dry mass, of a buffer component that buffers in the range of pH 6 - 10, preferably in the range pH 7 - 9. 2. Mechanical mass according to claim 1, characterized in that it contains an alkali metal or ammonium salt of phosphoric acid, carbonic acid, citric acid or tartaric acid, or mixtures thereof. 3. Method for producing the mechanical mass according to claims 1 or 2, characterized in that a non-borate-containing buffer substance is added to the mass that buffers in the pH range 6:- 10, preferably in the pH range 7-9. 4. Method according to claim 3, characterized in that a buffer substance is added to the mass which is an alkali metal or ammonium salt of phosphoric acid, carbonic acid, citric acid or tartaric acid, or mixtures thereof.