DE102009036551A1 - Pulp-containing cellulose-based material - Google Patents

Abstract

Base material as a starting material for producing a flat, fibrous article such as paper or cardboard, comprising - a natural or artificial fibrous material such as cellulose, - the fibers of the fibrous material have an average diameter of less than 20 µm, preferably less than 10 µm, particularly preferably less than 1 µm, - The fibers of the fibrous material have a fiber length of 30-3000 microns, preferably 100-2500 microns, particularly preferably 200-2000 microns, - The fibers are ground ultra high, so that the degree of grinding at 90 ° to 100 ° SR or above the measurability according to Schopper -Riegler lies.

Description

The This invention relates to the field of materials containing cellulose. It also concerns the field of natural and artificial Fibers and the sheet-like products made from them. These include first Line of paper and cardboard. These are known to be predominantly natural Fiber materials produced, but also from artificial fibers.

When so-called pulps or starting materials are pure cellulose fibers into consideration, deinked waste paper fibers, mixed waste paper fibers, Wood pulp, thermo-mechanically treated substances (TMP), chemical-thermomechanical treated substances (CTMP), furthermore BCTMP, fine-fibrillated cellulose-containing Material. The additives are organic additives such as wet strength agents, Retention agents, binders or inorganic fillers and / or pigments such as calcium carbonate, kaolin, titanium dioxide, Zinc sulfide, barium sulfate into consideration.

At Papers and cardboard boxes are subject to very different requirements. The most important are mechanical strengths such as tear or Wet strength, tensile strength and so on, but also the production and raw material costs. Therefore, the paper industry is eager to filler of increasing papers.

there It is difficult to meet all requirements at the same time. Especially the parameters tear or Wet strength and increase the filler content influence each other. An increase in the filler content leads to a Decrease of the strengths both in the wet state during production as well as the finished paper.

The mentioned fibers are first converted into the form of a suspension, the is called a slurry of said fibers and water, optionally with the addition of the stated additives. The suspension is in dealt with extensive treatment procedures. In doing so, milling and shredders used, for example, refiner. The grinding process leads to fibrillate the fiber in the suspension. Depending on the type and intensity the milling process, the suspension has a certain degree of grinding on, for example, in the unit Schopper-Riegler measured. among them one understands the drainage ability the suspension.

To the said treatment in the treatment plant becomes the suspension supplied to a headbox, which is arranged at the beginning of a paper machine. This generates a machine-wide suspension jet or material jet. The fabric jet is placed on a revolving paper machine screen and this dewatered.

Of the Invention is based on the object, a dry base material, and / or aqueous Specify a suspension, a pulp suspension and a method bringing a flat, produce fibrous product, for example, paper or cardboard. The flat product should have a high Strength, in particular a high tensile strength, and a high Wet strength. Furthermore, the aim is to increase the amount of strength-enhancing Funds as possible to keep small. These include For example, wet strength agents or binders such as starch or Latex. The proportion of fillers should be high, without compromising strength. Furthermore should a corresponding area Fiber products such as paper or cardboard are specified to be high Strength values and the rest mentioned qualities having.

These The object is achieved by the features of the independent claims.

at the material according to the invention - dried, ultra-high molecular weight cellulosic material or an aqueous suspension from it - goes one thus from fibers, as mentioned above. The fibers contain fine fibrillated cellulose-containing material, preferably with a Fiber diameter smaller than 20 μm, preferably less than 10 μm, more preferably less than 1 micron and a fiber length of 30-3000 μm, preferred 100-2500 μm, especially preferably 200-2000 microns.

All It is crucial that the material is finely fibrillated cellulose-containing Contains material. The mentioned very small fiber diameter in combination with the fiber length from 200 to 2000 microns is advantageous. The Fine-fibrillated according to the invention Cellulose-containing material can thus be in dry form or in suspension form to be provided.

But very important is the fine fibrillation. This is driven so far that the well-known meal grading method according to Schopper-Riegler results in a value that is extremely high and lies between 90 ° and 100 ° SR, or that the method is no longer applicable at all. Extremely high values in the sense of the invention are at 90 ° to 100 ° SR. Namely, the fiber material is finely fibrillated so that the water flow through the measuring apparatus comes to a standstill. The fiber material is thus ultra-high ground. In contrast, the freeness of a conventional pulp suspension is still easily determinable, even when highly ground.

To the Detecting the dewatering ability or the freeness of an ultra-high molecular weight pulp according to the invention it was necessary to use a different method of measurement. These can be both for measuring the degree of grinding of a conventional ground pulp As well as an inventive, ultra-high molecular weight pulp. The device and its operation will be described below.

The Inventors have found that the strength improved, although no strength agents were added to the pulp. It has also been found that by adding finely fibrillated cellulose-containing Material the retention of fillers / pigments is improved and distributed more homogeneously in the paper matrix are.

This was surprising for the following reasons:
It is known that the strength of a flat fibrous material, such as a paper, increases with increasing degree of grinding. The curve of strength over the degree of grinding thus initially increases until it reaches a maximum. Then it falls off again from a certain degree of grinding. The course of said curve strength over freeness depends on parameters such as type of pulp, type of grinding treatment. In addition, the individual types of strength behave differently. Thus, the dry strength takes a different course than the wet strength or as the fold number.

In any case The inventors have found that said curve strength over freeness in a further driving the Mahl- or Fibrillierprozesses over the previously common Measure beyond rises again. You could thus say that the curve according to the invention has a first turning point, namely where the maximum strength is, but then a second Turning point. This is located in an area where you previously long ago stopped has to grind on. The resulting strength is thus surprising. The invention allows thereby for the production of a flat Fibrous the use of fibers with conventional freeness in mixture with a small proportion of ultra-high molecular cellulose Material, wherein the strength is significantly improved.

Around a flat Making fiber material from the substance obtained in this way - dry Base material or suspension prepared therefrom - come various procedures, including the classic one Process by means of one of the numerous paper making machines. In the first place, a paper machine should be mentioned, comprising a headbox that creates a machine-wide flow of material, Furthermore, a rotating sieve, which is associated with the headbox and from this receives the flow of material. Here are the Rundsiebmaschine to name the screen, and last but not least the twin-wire machine. The areal Product leaves to produce particularly advantageous by the fact that from the headbox leaking thin Stream or stream of material in a known manner in the wedge-shaped inlet gusset is initiated, formed of two circumferential surfaces. The a circumferential area is in any case a perforated surface, and the other can too a closed area be. It is particularly advantageous, the perforated surface, namely a Paper machine wire to guide around the counter surface under tension, and Although such that the sieve a contact pressure on the fabric jet exerts and thus its drainage causes.

According to one Another idea of the invention, it is expedient to produce a base material than Mixture of a first, ultrahigh-milled fiber material according to the invention and a second, conventionally ground pulp, the one according to Schopper-Riegler measurable degree of grinding. The degree of grinding of the second fiber material may be at 10, 20, 30, 40, 50, 60 degrees SR lie.

The mixing ratios can vary. For example, the proportions of the first to the second substance may be 5, 10, 15, 20, 25%. Deviations are possible upwards or downwards. Also, relatively small amounts of 5% and less of the first fabric may be sufficient to significantly increase the strength of the sheet fibrous web to be produced while saving additional strength aids. It is surprising that even very small amounts of, for example, 0.8% can lead to a disproportionate increase in strength. Thus one reaches by the addition of a very small amount of ultra-high molecular cellulose material higher strength than one would achieve with greater grinding of the entire pulp casserole, without the disadvantage of poorer drainage on the paper machine. The explanation is that even a relatively small quantum of highly milled fiber of the invention may be sufficient to sufficiently produce fiber-to-fiber bonding and thus increase strength, yet not significantly affect drainability, and so on the speed of the papermaking process is acceptable.

Embodiment:

One Laboratory sheet of 100% ground eucalyptus pulp and 20% filler (Calcium carbonate) topped by the addition of 0.8% of according to the invention, ultra-high milled cellulosic material has a tensile strength increase of 25%.

The Inventors have used a special device with which the freeness containing a base material or a suspension, containing an ultrachochgemahlenes invention Fiber material. The drainage ability is hereafter called "water value".

Such a device is in 1 shown. It includes the following components:
A water tank 1 stands over a standpipe 2 and a connection line 3 with a filter device 4 in a conductive connection. The filter device 4 hangs on a tripod 5 , Under the filter device 4 there is a calibrated glass cylinder.

A crucial component is the filter device 4 , This includes a cylindrical container 4.1 , At the upper end of the cylindrical container 4.1 there is a ventilation flap 4.2 , At the bottom of the cylindrical container 4.1 there is a filter layer 4.3 , In the water tank 1 There is water with a water level 1.1 , The height difference between the water level 1.1 and the filter layer 4.3 is 2 m.

With the device according to 1 the water value, the wet density and the specific flow can be determined as follows:
The filter device 4 is provided with a moistened, permeable cellulose layer (Schenk D layer with the screen side down), so that the filter device 4 is closed at the bottom. Subsequently, 25 g of FHM are slurried in 200-300 ml of pure water and completely transferred to the filter. At the same time a stopwatch is set in motion. Now the filter unit 4 is connected to the elevated tank and vented. After one minute, 500 ml of water are filtered off and then the time for the next 100 ml of filtrate is stopped.

For highly fibrillated Cellulose, the water value is so small that the determination as above, However, using 0.5 g material weight is performed.

ever the lower the water value, the higher the freeness. A little Water value means that the relevant suspension according to the invention an extremely low drainage tendency has, just as low, that they are not with a Schopper Riegler device is detectable.

According to the invention is the water value of a suspension of the invention under 10, at a weight of 0.5 g or less, in particular, 0.2 g of a flat fibrous material, made from a suspension of the type described, has a surprising high strength, with or without the addition of an agent to increase the strength. The suspension leads Thus, even without the addition of strength-enhancing agents to a flat Fibrous material with unusual high strength. The addition of binders or latex is not necessary.

LIST OF REFERENCE NUMBERS

1

water tank

1.1

water level

2

standpipe

3

connecting line

4

filtering device

4.1

cylindrical container

4.2

vent flap

4.3

filter layer

5

tripod

6

calibrated glass cylinder

Claims (9)

Base material as starting material for manufacturing a flat, fibrous article such as paper or cardboard a natural one or artificial Pulp such as cellulose, 1.1 have the fibers of the pulp an average diameter of less than 20 microns, preferably smaller 10 μm especially preferably less than 1 micron 1.2 the fibers of the pulp have a fiber length of 30-3000 microns, preferably 100-2500 microns, especially preferably 200-2000 μm; 1.3 The fibers are ground ultra-high, so the degree of grinding extremely high is and at 90 ° to 100 ° Schopper-Riegler or above the measurability according to Schopper-Riegler. Base material according to claim 1, characterized by the following features: the water value of the cellulose is below 10 at an input of 0.5 g, preferably at 0.2 g. Base material according to claim 1 or 2, characterized that the freeness of the fibers is predominantly above the nano range. A suspension comprising a base material according to a the claims 1 to 3. Use of a base material according to a the claims 1 to 3 for producing a flat fibrous material. Process for producing a flat fibrous material with the following process steps: 6.1 it becomes a first suspension made with ultra-high molecular weight fibers according to claim 4; 6.2 the first suspension is mixed with a second suspension, which has a measurable after Schopper Riegler grind; 6.3 for producing the flat Fibrous is a sheet forming method is applied. Method according to Claim 6, characterized that the sheet forming method uses a dehydration method a headbox and a rotating sieve. A method according to claim 6 or 7, characterized in that the proportion by weight of the first to the second suspension is in one of the following ranges: at least 0.1%; at least 1%; at least 2%; at least 5%; at least 10%; at least 20%; at least 30%; at least 40%; at least 50%. flat Fiber produced by a process according to any one of claims 6 to 8th.

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