RU2418902C2 - Emulsion for paper sizing, method for its production and usage - Google Patents

Abstract

FIELD: textile, paper. ^ SUBSTANCE: emulsion contains anhydrides of fatty acids, which are produced from unsaturated or saturated fatty acids or their mixtures with length of chain from 12 to 24 carbon atoms and are preserved as liquid at the temperature below 50C. If necessary, emulsion for paper sizing additionally contains a reactive or a non-reactive agent for sizing and/or a fixator with aluminium ions content. Emulsion for paper sizing is produced by emulsification of fatty acids in water phase by means of shearing forces or intense mixing. Emulsifiers are used to form emulsion. Emulsion is used for continuous sizing of paper mass or to treat paper surface in sizing press. Emulsion is used to produce paper. ^ EFFECT: eliminates formation of sediments with sticky consistency with regular indices of pH in process of paper making and reduced duration of contact with water system. ^ 16 cl, 4 tbl, 5 ex

Description

FIELD OF THE INVENTION

The present invention relates to new aqueous emulsions for sizing paper using fatty acid anhydrides.

State of the art

The use of fatty acid anhydrides as a paper sizing agent has been known for a long time, see US-A-1,996,707. For example, DE 1213221 describes the preparation of dispersions from fatty acid anhydrides for sizing paper. In this case, fatty acid anhydrides emulsify at a temperature above their melting point in the presence of anionic agents in cationic starch. The method prevents the formation of anhydride aggregates capable of forming a precipitate in the dispersion. As an example, stearic acid anhydride, which at room temperature is present in the form of solid particles in water and is therefore less susceptible to hydrolysis. Nevertheless, taking into account the high reactivity of anhydrides, one should take into account the speed of hydrolysis.

US-A-3,409,500 describes a sizing method using fatty acid anhydrides and a water-soluble, cellulose-resistant cationic polyamine. Anhydride is also used here as a solid-liquid dispersion formed by rapid cooling of the emulsion. As an fatty acid anhydride, stearic anhydride is exemplified. Storage stability with this cooking method is indicated only conditionally. This limitation is crucial, since fatty acid anhydrides, along with a more stable, but also more inert alkyl ketendimer, have not been approved as a paper sizing agent.

The use of fatty acid anhydrides as a paper sizing agent is disclosed in US-A-3,582,464. Dispersions, which are prepared in the same way as dispersions of fatty acid anhydrides described above at an elevated temperature in the form of an emulsion and which are stabilized by cooling, also have the disadvantage of continuing hydrolysis, which limits the activity of the product.

Alkenyl succinic anhydrides are also very effective paper sizing agents. Their high reactivity prevents the transport of ready-to-use emulsion. However, due to its liquid state of aggregation, alkenyl succinic anhydride can be directly emulsified and used in a paper machine. This makes it necessary to use the homogenizer in place, but it also has the advantage that, along with high efficiency, the active substance can be transported in its pure form, without emulsifiers, stabilizers or biocides to protect the dispersions. Due to the hydrolysis and use of calcium carbonate as a filler, alkenyl succinic anhydrides can form precipitates, which, due to their stickiness, can impair the purity of the system.

Disclosure of invention

It has been found that the use of liquid at a temperature below 50 ^C fatty acid anhydrides derived from unsaturated or saturated fatty acids or their mixtures with a chain length of 12-24 carbon atoms, allows a very efficient sizing emulsion. Due to their liquid state of aggregation, fatty acid anhydrides can be emulsified immediately before use in a paper machine. As a result, the duration of contact with the water system is minimized and unwanted hydrolysis can be eliminated. Fatty acid anhydride can be added directly to the aqueous phase and can be emulsified by shear using a homogenizer or vigorous stirring. Emulsifiers may be used to form the emulsion. In the formation of an emulsion containing starch, the aqueous phase positively affects the cellulose substantivity. This emulsion is used for direct continuous sizing of paper pulp or for surface treatment of paper in a size press.

The following can be used as liquid fatty acid anhydrides: unsaturated and saturated fatty acid anhydrides or their mixtures with a chain length of 12-24 carbon atoms, mixed anhydrides of these fatty acids or their mixtures and acetic acid, anhydrides prepared from mixtures of the above-mentioned fatty acids and resin acids .

The invention is not limited to the origin of the fatty acids used. Possible sources of raw materials include: tall oil fatty acids, vegetable fatty acids from sunflower, rapeseed, soybean, linseed and animal oils. Resin acids can consist, for example, of gum, tall oil and rosin, or mixtures thereof.

Also, the invention is not limited to a specific method for producing fatty acid anhydrides. A simple and well-known method is the conversion of fatty acids by acetic anhydride and its subsequent removal. Acetic acid can be recycled to anhydride and used in a closed loop.

Liquid fatty acid anhydride may be combined with another sizing system. Due to its liquid state, the fatty acid anhydride can be mixed in any proportion with alkenyl succinic anhydride. In the case of combinations of alkenyl succinic anhydride and a fatty acid anhydride, a synergistic effect is observed. Therefore, the desired properties of the target product can be set by the ratio of the components of the mixture.

It has been unexpectedly found that aluminum salts have a positive effect on the sizing effect using fatty acid anhydride. These include, but are not limited to, aluminum sulfates or aluminum polychloride.

Fatty acid anhydrides are compatible with aqueous, calcium-based systems. At normal pH values, there is no precipitation with a sticky consistency during paper production, as is noted in some cases when using alkenyl succinic anhydride.

The paper sizing system according to the invention is based on the use of the starting materials present in the primary raw material for paper production - wood. Consequently, the paper sizing agent is again used for the same task in a modified form, which was initially solved to ensure plant properties.

The following examples serve to further illustrate the invention.

Example 1. Obtaining fatty acid anhydrides

In a typical experiment, tall oil fatty acid and acetic anhydride were introduced into the reactor in an equimolar amount and converted. Five hours later, the resulting acetic acid was removed under vacuum, and the temperature did not exceed 150 ° C. The yield of fatty acid anhydride was 91.6%.

Example 2. Testing different types of anhydride glue on the effectiveness of sizing

For testing different types of glue, the Rapid-Köhten laboratory sheet former was used. As pulp, bleached pulp was used, containing 70% of long and 30% of short fibers, crushed to a degree of grinding of 30 ° according to Shopper-Riegler.

Aluminum sulfate was added as a fixative. In this case, the optimal amount of aluminum sulfate was previously determined by constructing a concentration curve for each sizing agent. In experiments using calcium carbonate as a filler, its content was 20% by weight of dry paper.

To 99 parts of a 4% cationic starch solution, 1 part of anhydride adhesive was added and emulsified with a shear device (Ultraturrax) at a speed of 10,000 rpm for one minute. The resulting adhesive emulsions remained stable for about 2 hours. Before sizing, dilution with water was carried out in a ratio of 1:10.

For comparison, we used the traditional cationic dispersion of resin glue, obtained on the basis of tall oil resin acid. The pulp additive was produced as a diluted standard product.

Cobb paper sizing index 60 describes water absorption in g / m ² in 60 seconds.

1st type of glue: 100% tall oil fatty acid anhydride; 2nd type of glue: 50% tall oil fatty acid anhydride and 50% tall resin; 3rd type of glue: widely used cationic resin dispersion for paper sizing; 4th type of glue: solid tall tar anhydride according to U.S. Pat. No. 3,582,464.

The amount of glue indicates the active content of the paper sizing agent. Quantitative indicators are correlated with the weight of dry paper in tons

Glue The amount of glue, kg / t Aluminum sulfate, kg / t a piece of chalk Cobb Score 60 one 0.9 one Absent 32 2 0.9 one Absent 33 3 1,0 2,3 Absent 38 one 1.3 5.5 Is present 38 2 1.3 5.5 Is present 42 3 4.6 13.6 Is present 80 3 6.4 13.6 Is present 38

Example 3. The use of fatty acid anhydride together with alkenyl succinic anhydride

An adhesive 2 made from tall oil fatty acid and tall oil was mixed with 18 carbon atoms of alkenyl succinic anhydride at various concentrations and tested for sizing efficiency as described in Example 2.

Alkenyl succinic anhydride, kg / t Glue 2, kg / t Aluminum sulfate, kg / t Cobb Score 60 0.7 0 3 28 0.47 0.23 3 26 0.23 0.47 3 27 0 0.7 3 54 0.35 0 3 91

A synergistic effect is noted when a mixture of fatty anhydride with alkenyl succinic anhydride is used.

Example 4. The effect of mixed anhydride used together with alkenyl succinic anhydride

Different types of anhydride glue, prepared from mixtures of tall oil fatty acid and tall oil, were mixed with alkenyl succinic anhydride with 18 carbon atoms in a 1: 1 ratio and tested for sizing efficiency, as described in example 2. In this case, the amount of aluminum sulfate was also optimized taking into account the means for sizing. Content indicators are correlated with anhydride adhesive compositions.

Glue The proportion of fatty acid,% The proportion of resin acid,% Cobb Score one one hundred 0 32 2 fifty fifty 34 four 0 one hundred* 83 * resin anhydride as described in US-A-3,582,464.

Example 5. Types of anhydride adhesive in combination with aluminum salts

Glue 2, analogously to example 2, was used with different aluminum salts.

Glue The amount of glue, kg / t Aluminum salt The amount of aluminum salt,% Cobb Score one 0.9 - - 47 one 0.9 Aluminum sulphate 0,07 thirty one 0.9 Aluminum polychloride 0,07 29th one 1,2 - - thirty 2 0.7 - - 54 2 0.7 Aluminum sulphate 0,07 29th 2 0.7 Aluminum polychloride 0.08 29th 2 1,2 - - thirty

Claims (16)

1. An emulsion for sizing paper containing fatty acid anhydrides, characterized in that the fatty acid anhydrides are derived from unsaturated or saturated fatty acids or mixtures thereof with a chain length of 12-24 carbon atoms and that they remain liquid at temperatures below 50 ° C. 2. The emulsion according to claim 1, characterized in that the fatty acid anhydrides are a mixture of the indicated fatty acid anhydrides or mixtures of fatty acids and acetic acid. 3. The emulsion according to claim 1, characterized in that the fatty acid anhydrides are obtained from mixtures of these fatty acids and resin acids. 4. The emulsion according to any one of claims 1 to 3, characterized in that the fatty acids are derived from tall, sunflower, rapeseed, soy, linseed and animal oils. 5. The emulsion according to claim 3, characterized in that the resin acids are derived from gum, tall resins and rosin, or mixtures thereof. 6. The emulsion according to claim 4, characterized in that the resin acids are derived from gum, tall resins and rosin, or mixtures thereof. 7. The emulsion according to any one of claims 1 to 3 or 5-6, characterized in that it further comprises at least one more reactive or non-reactive sizing agent. 8. The emulsion according to claim 4, characterized in that it further comprises at least one more reactive or non-reactive sizing agent. 9. The emulsion according to any one of claims 1 to 3 or 5-6, characterized in that it further comprises aluminum salts, such as aluminum sulfate or aluminum polychloride. 10. The emulsion according to claim 2, characterized in that it further comprises aluminum salts, such as aluminum sulfate or aluminum polychloride. 11. The emulsion according to claim 7, characterized in that it further comprises aluminum salts, such as aluminum sulfate or aluminum polychloride. 12. A method of obtaining an emulsion for paper sizing, characterized in that the fatty acid anhydrides according to claims 1 to 11 are emulsified in the aqueous phase by shear forces or intensive mixing. 13. The method according to p. 12, characterized in that emulsifiers are used to form the emulsion. 14. The use of an emulsion for sizing paper obtained by the method according to item 12 or 13, for direct continuous sizing of paper pulp. 15. The use of an emulsion for sizing paper obtained by the method according to item 12 or 13, for surface treatment of paper in a size press. 16. Paper produced using an emulsion for sizing paper according to any one of claims 1 to 11.