NO842651L - PAPIRLIMINGS procedure - Google Patents

Abstract

In the paper sizing where synthetic cellulose reactive sizing agents and calcium carbonate are used as fillers, the aluminum polyhydroxychloride has the formula :. Al2 (OH) 6_xClx. n H0. where 0.96 <_ x i <_ 6 and n = 2x ,. an excellent retention effect.

Description

The present invention relates to a method for gluing paper, suitable for gluing in the presence of a filler which is sensitive to an acidic environment, in particular calcium carbonate.

The paper gluing phase, which consists of attaching the cellulose fibres

in the material that makes up the wood mass to each other by means of a gluing agent, can mainly take place according to two techniques: - In an acidic environment (at a pH between 4.5 and 6.5) where the gluing agents (which are usually derived from various saponified resin acids), must be precipitated to adhere to the fibres, using a suitable precipitating agent (aluminium sulphate or aluminum polychloride). - In a neutral environment (at a pH between 6.5 and 7.5) where the adhesives are of the synthetic cellulose-reactive type, namely which adhere to the fibers without the need to precipitate and consequently without requiring the use of a precipitant.

Examples of cellulosic reactive sizing agents include "Aquapel", manufactured and sold by Hercules Inc., "Basoplast" from Badische Anilin und Soda Fabrik A.G. (BASF) and "Tenore-sin" from Ciba-Geigy.

In both techniques, the greater mutual influence between the adhesive and the fibers takes place with the finest fibers due to reasons of a chemical and physical nature, and the better the fibers are dispersed, i.e. the more the fibers tend to separate from the surrounding water , the better the gluing.

By reducing the fiber dispersion, the amount of fibers should

and adhesive retained on the metal sheet during the formation of the sheet become larger; on the other hand, a smaller amount of fibers and adhesive should be lost with the waste water under the metal cloth.

While such a result is achieved with the precipitating agents in the case of resin sizing agents, according to the methods hitherto known and used, the dispersion in the case of the synthetic cellulose-reactive sizing agents is supplemented with suitably dosed products or retention agents, such as polyamines, polyacrylamides, polyethyleneamines and the like. , as these products are remarkably expensive.

It is also known that, depending on the end use of the paper, an inert filler is added to the fiber suspension, adapted to add specific properties to the paper. Among the most well-known and used fillers, kaolin and calcium carbonate can be mentioned. When the sizing agent is of the conventional type, namely the resin type, the combined use of kaolin and aluminum sulfate does not present particular problems with the exception that the kaolin must be particularly clean as possible impurities such as calcium carbonate react with aluminum sulfate, whereby parts of the precipitating agent are drawn away from the specific effect as such.

In addition to this, an economically non-negligible problem must also be taken into account as the kaolin of the desired purity has a significant cost. When the filler consists of calcium carbonate, the use of aluminum sulphate as a precipitating agent is inhibited in practice, as a significant part of the calcium carbonate is used up to form calcium sulphate to neutralize the dispersion before the calcium carbonate can produce its effect.

This problem has been solved, and is the subject of a previous patent application by the same applicant, by using, in a bonding process with conventional resin bonding agents, aluminum polychloride and polyhydroxychloride as a precipitant together with the use of calcium carbonate as a filler, as it has been found that these the precipitation agents, contrary to the chemically plausible assumptions, work in a neutral environment (pH of approx. 7) in the fiber dispersion.

In the case of the sizing methods with synthetic cellulose reactive sizing agents and where calcium carbonate and another filler sensitive to an acidic environment are used, the resort to the above-mentioned synthetic retention agents has hitherto also been dictated by the above-mentioned problems associated with the use of calcium carbonate.

Alongside the above-mentioned problems, another problem arises in the specific case where the fiber suspensions contain non-negligible percentages of mechanical wood pulp, namely wood pulp obtained by means of mechanical grinding of the wood without chemical attack.

For the good operation of the continuous machinery for paper production, in fact, in that case, another operating parameter besides the retention has a significant importance, namely the rapid separation of the white water from the metal cloth, a parameter called "freeness". .

With this type of wood pulp, you actually find that if the retention is high, the "freeness" is far too low and vice versa.

The use of aluminum salts other than aluminum sulfate has already been suggested previously. E.g. Canadian Patent No. 759,363 provides for the use of a basic aluminum salt with the formula

where X is a monovalent anion, e.g. chlorine, n is 1 to 20, especially 4 to 10, m is less than 3n and the ratio Al/X is between 1.5 and 6, especially between 2 and 4.

The particular problem openly faced in this patent is the improvement of paper sizing by avoiding the use of aluminum sulfate, and accordingly both the description and the claims are entirely devoted to the comparison with aluminum sulfate.

With regard to the filler, reference is generally made to the fact that the starting slurry of wood pulp can, if desired, contain the normal fillers without further detailed indication.

In turn, GB patent application no. 2 010 352 describes the use

in the paper sizing of aluminum polyhydroxide chloride with the formula:

as the precipitating agent for a resin-type (namely resin-based) adhesive, with the specific purpose of removing the problems of corrosion and bad odor associated with the common use of aluminum sulfate. Finally, FR patent document no. 2 418 297 describes a method for paper gluing with the aim of improving the properties of the glued paper and the filler retention in the paper that is produced. For this purpose, the use of, as a precipitating agent, a basic salt with the formula is contemplated

where M can be aluminum, X chloride, 3n-m 0 and the basicity, namely the percentage ratio m/3n, is between 30% and 75%.

It is particularly preferred with the presence of a polyvalent anion in the specified salt, e.g. the anion of a mineral acid, such as sulfuric acid. In the introduction, the possible fillers are mentioned, namely kaolin, calcium carbonate, talc, etc. without setting out any difference between them. However, both the description and the examples constantly refer to resin-based, i.e. resin-containing adhesives,

and to the use of a retention agent, such as starch, polyacrylamide and the like. The previous distinction in this particular technology between the methods using resin sizing agents, i.e. rosin-based sizing, and the methods with synthetic cellulose-reactive sizing agents, is thus confirmed. As already mentioned, in the last

mentioned case, no precipitating agents were actually used and the fiber suspension was, on the other hand, added together with agents, also of a synthetic type, which promote retention.

It has now been found and it is an object of the present invention that the aluminum polyhydroxide chloride has an excellent retention effect and at the same time allows calcium carbonate to be used as inert fillers, as the pH in the fiber dispersion is approx. 7.

In other words, it has been found that the aluminum polyhydroxy chloride which is commonly used as a precipitating agent in the sizing of paper with commonly used resin-containing sizing agents, in the case of the synthetic cellulose reactive sizing agents, has a completely different effect but still important in terms of the results of the sizing process, namely a retention effect towards the fibers and additives that make up the wood pulp.

At the same time, the addition of aluminum polyhydroxy chloride allows the use of fillers that are sensitive to acidic environments, which would be difficult if another well-known and popular precipitating agent used for resinous adhesives, namely aluminum sulfate, were to be used.

In the case of aluminum sulfate, the experimental samples showed that the amount of aluminum sulfate needed to get

a retention effect that is satisfactory and comparable to the aluminum polyhydroxy chloride would allow for a pH in the fiber dispersion that is not higher than 6.4. Under these conditions of use, calcium carbonate would cause difficulties and the retention effect of the aluminum sulfate would obviously be reduced.

The method according to the present invention is thus characterized by aluminum polyhydroxychloride with the formula being added to the aqueous dispersion of fibres, supplemented with a synthetic cellulose-reactive adhesive and possibly with calcium carbonate as a filler:

According to the preferred embodiment, the amount of aluminum polyhydroxychloride that is added to the fiber dispersion so that a retention, measured as transparency, of approx. 40%.

As already mentioned, certain problems are encountered with the paper gluing which is based on wood pulp slurry containing significant amounts of mechanical wood pulp. It has been surprisingly found that in this case the use of aluminum polyhydroxychloride of formula (~£) allows acceptable values to be obtained both with respect to "freeness" and with respect to retention, thus guaranteeing an easy operation of the continuous manufacturing machine for paper.

The aluminum polyhydroxychloride that can be used in the method according to the invention is commercially available ("Prodefloc SAB/18") and is produced under all circumstances as described in US Patent No. 3,909,439

to which reference is made here for further details.

The results of the experimental tests carried out with aluminum polyhydroxychloride (hereafter indicated by the abbreviation PAC) compared to aluminum sulphate are reproduced below.

The aluminum sulphate had an A^O^ content of 8.5%, while

PAC contained 18% Al 2 O 3 .

The retention was determined by measuring the residual turbidity of

the filtered water according to Shopper-Riegler, using a transparent, overturned pyramid with mm divisions.

The retention values were given as % transparency in the wastewater. As an optimal value, the retention that gives a transparency percentage of at least 40 was determined.

Example 1.

In Table 1, the retention and pH behavior that is rinsed with the addition of increasing percentages of aluminum sulfate and aluminum polyhydroxychloride (PAC) is reproduced.

As will be seen, the retention value which is considered optimum is obtained at a sulphate percentage of 16.2%, but at this amount the pH is lowered to 6.4. It means that-it is not possible to get

a good retention with sulphate without at the same time modifying the buffering effect of carbonate with consumption of this and CO2 development.

Regarding PAC, on the other hand, an amount of 3.1% PAC is needed to achieve a retention to 40% transparency. At this percentage, the pH value is 6.96

and is consistent with the carbonate-buffered environment.

In the tests that were carried out in a machine, the pH in the cycle had to be maintained above 6.6 to avoid operational problems with the continuous machine and thereby disadvantages in production.

In connection with the above-mentioned problem with fiber slurries containing mechanical wood pulp, comparison tests have been carried out using (a) the polyhydroxy chloride with formula (4) according to the present invention, (b) the basic salt according to FR patent document no. 2 418 297, which are commercially available under the abbreviation WAC and (c) alum (namely aluminum sulphate).

The tests concerned in particular the determination of retention and "freeness", and for fiber slurries containing different percentages of mechanical wood pulps.

Example 2.

Fiber slurry:

The slurry had a "freeness" of 630 ml SCF^^

Example 3.

Fiber slurry:

Example 4.

Fiber slurry:

The "freeness" of the slurry: 500 ml SCF.

(1) NBKP: neutral bleached kraft pulp; (2) BWD: wood pulp; (3) SCF: Standard Canadian "freeness", the highest value is the best, (4) transparency-%, the highest value is the best.

As will be appreciated from the above examples, PAC shows the best freeness and retention values compared to both alum and WAC. PAC and alum show similar retention values for slurries with the lowest content of mechanical wood pulp, but the "freeness" values are decidedly better for PAC.

In the slurry containing the highest percentage of mechanical wood pulp (40%), PAC shows values for both retention and "freeness" that are better than both for WAC and alum.

Claims (4)

1. Paper sizing method of the type where an aqueous dispersion of cellulose fibers is added to a synthetic cellulose-reactive sizing agent and possibly a filler that is sensitive to an acidic environment, characterized in that the aqueous dispersion is added to a retention agent consisting of aluminum polyhydroxy chloride with the formula where 0.96 <^ x <_>< 6 and n = 2x. 2. Method according to claim 1, characterized in that the filler is calcium carbonate. 3. Method according to claim 1, characterized in that the aluminum polyhydroxychloride is added in such an amount that a retention corresponding to a transparency of at least 40% is determined when measured using the Schopper-Riegler method. 4. Method according to claim 1, characterized in that an aqueous dispersion of fibers containing 5-40% by weight of mechanical wood pulp can be treated.