DE4312035A1 - Pigments having improved flow properties and use thereof - Google Patents

Abstract

The invention relates to inorganic pigments having improved flow properties and good storage stability and to the use thereof in papermaking.

Description

The invention relates to inorganic pigments with improved flow properties and good storage stability and their use in papermaking.

Titanium dioxide pigment is used in the form of rutile and anatase in many applications are sufficient for white coloring, for increasing opacity and in blends other pigments used. Depending on the application, they become unsteady delten or the inorganic and / or organic post-treated pigments used. This is an inorganic aftertreatment - with aluminum, silicon and Zirconium compounds - unavoidable when the pigments are exposed to the weather permanent paint or plastic systems are to be used.

Are also particularly advantageous for applications of titanium dioxide in paint systems Pigments treated with reaction products of polyols and ethylene oxide to use. A process for the production of such pigments is described in DE-A- 14 67 442.

An organic after-treatment - for example with silicones - is used if the pigment in its dispersing properties for certain applications (such as for incorporation in plastics) must be adapted. Silicones are also used Improved the flow properties of titanium dioxide added. To improve the Micronization of the pigments often become grinding aids during grinding of organic origin (such as amines, amino alcohols or polyhydric alcohols) used.  

The use of grinding aids has been in the manufacture of pigments has been known for a long time and is also often used in the micronization of titanium dioxide turns. Polyhydric alcohols, amino alcohols or are often used as grinding aids Amines used. The addition of appropriate grinding aids serves the verb improved micronization and improved dispersibility in paint systems men. For example, Canadian patent 067 303 describes the production of titanium di oxide with the addition of the polyhydric alcohol trimethylolethane for an improved Weather resistance and dispersibility of titanium dioxide in coatings. In GB-A-1 022 621 discloses a process for the preparation of titanium dioxide pigments wrote in which polyhydric alcohols (such as glycerol, pentaerythritol or tri methylolpropane) can be used as grinding aids. The procedure serves the Improve the grinding of titanium dioxide pigments. In FR-A-2 045 426 the Treatment of titanium dioxide with trimethylolethane to improve the Dispersibility claimed in alkyd resins. Improving the dispersing Availability in polyethylene with the addition of trimethylolethane is in Japanese Patent Specification 82 36 157 described.

For certain applications, such as in paper pulp, due to the ge less abrasion effect, titanium dioxide is preferably used in the anatase form. For Such applications usually do not require an inorganic aftertreatment agile. An organic modification normally has to be avoided, because this is disruptive for such applications. For example, when adding organi additives in the incorporation of titanium dioxide into the paper pulp is an wished strong foaming occurred. Additives can also be harmful to the be coloristic properties of the pigment and z. B. an undesirable Yellow shift in hue. Furthermore, there is a burden on the Paper mass production of process water with special organic Additions (such as with amines or amino alcohols) are not desirable. From the reasons mentioned is therefore in titanium dioxide pigments for applications in Paper area dispenses with an organic modification. Although such pigments are well suited for a variety of applications, the missing one has an effect organic modification adversely affects the flow behavior of the titanium dioxide. A untreated anatase is e.g. B. not due to poor flow properties  suitable for transport in a silo or standing silo. According to the state of the Technique is a method to improve the flow properties of powders in the drying of suspensions using a spray dryer. The Spray drying usually leads to a free-flowing powder or to one Granules. However, the energy expenditure of the method is disadvantageous since larger amounts of water must be evaporated. In addition, are appropriate Granules are often not sufficiently dispersible. Another method of Improvement of the flow properties consists in the organic modification Silicone oils. This can e.g. B. by addition in the final grinding or also in the Spray drying take place. Additions of silicone improve the flow properties properties of the titanium dioxide, but lead to poor dispersibility in aq media and are therefore unsuitable for applications in paper pulps.

The task was therefore to provide pigments that are in paper pulp or can generally be used in papermaking without it Processing comes to foam formation or there are coloristic disadvantages but are at the same time flowable so that they can be transported well in silo wagons etc. can.

This object could be achieved with the pigments according to the invention.

The invention relates to inorganic, flowable, easily transportable, non-clumping pigments for the paper industry, the polyhydric alcohols contain.

Polyhydric alcohols of the general formula (I) are preferred

in which
R₁ H, CH₂OH
R₂ H, C₁ to C₄ alkyl, (CH₂) _y -OH with y = 0 to 2,
R₃ represents H, (CHOH) _z -CH₂OH with z = 0 to 3,
used.

The pigments are preferably oxidic compounds.

The pigments are particularly preferably titanium dioxide, iron oxide and mixed phase pigments, especially those with rutile or spinel structure door.

Titanium dioxide pigment in the anatase form is particularly preferred.

The pigments are preferably not aftertreated inorganically.

In particular, the polyhydric alcohols are used in an amount of 0.01 to 5 wt .-%, preferably 0.1 to 1.0 wt .-%, based on pigment, used. Higher additives do not lead to any further improvement in the properties.

Particularly suitable polyhydric alcohols are trimethylolethane and trimethylolpropane and pentaerythritol. Appropriately modified pigments are particularly useful favorable with regard to the foaming behavior. Especially with trimethylolethane Treated pigments are very flowable.

The pigments of the invention are used in papermaking.

According to the state of the art in the paper industry due to the Compatibility with the pulp only untreated or inorganic post-treated pigments used. With those treated according to the invention Pigments, on the other hand, are not only capable of flowability and transportability of the pigments are positively influenced, but the pigments remain despite the loading act with polyvalent alcohols compatible with the pulp.

Related connections, such as. B. the otherwise well-proven meal for titanium dioxide auxiliaries that are described in DE-A-14 67 442, namely reaction products from polyhydric alcohols and ethylene oxide, are for applications in paper mas  not suitable as they lead to foam formation. When incorporating the ent According to modified titanium dioxide, strong foaming is observed. Also the amino alcohols or amines normally used as grinding aids are not suitable as an additive for titanium dioxide for pigmenting paper, since e.g. B. when using the amines, an undesirable shift in the hue to yellow he follows. Furthermore, prepare titanium dioxides with amines or amino alcohols be modified, difficulties in the treatment of process water from the Papermaking.

A pigment treated with the additives according to the invention shows in comparison very good flow properties for the unmodified pigment. Particularly advantageous is that z. B. also non-inorganic post-treated titanium dioxide Experience has shown that the flow properties are very poor and also strong Adhesion tends to be good after modification with the additives according to the invention is flowable. For example, an anatase that has not been inorganic aftertreated by modification with polyhydric alcohols after transport in the silo empty the trolley, which does not apply to the unmodified pigment. By the poss Packaging material is also used for transportation in the silo wagon saves. To empty the silos, the pigment is e.g. B. pneumatically discharged.

The modification of the titanium dioxide with the additives according to the invention can be found in Usually take place in that the additives before or after the final grinding the pigment can be applied. For example, the addition to the unground Clinker by spraying on the pure additives or by spraying on appropriate aqueous solutions. Also adding solid, if possible finely ground additives are possible. Another embodiment consists in the Addition to the finished product, which is advantageously carried out in such a way that in a mixer a solution or a liquid additive in pure form on the Pigment is sprayed on, which is followed by homogenization in the mixer. Another possibility is to spray the pigment on one Granulating plate, while binding a slightly dusty fine portion of the Pigment takes place.  

The additives according to the invention are preferred in amounts of 0.01 to 5% by weight 0.1 to 1.0 wt .-%, based on pigment, well effective. Another increase in Addition gives z. B. no further improvement in flow behavior.

To check the foaming, the pigment is added with for the paper Bulk fillers with an intensive stirrer in water dispersed. The foam behavior is assessed visually.

The invention is illustrated by the following examples.

Examples

For all examples, an oven clinker made according to the sulfate process becomes one Titanium dioxide in the anatase form (exception: Example 4, TiO₂ in rutile form) used. The clinker is used for modification with different aids sprayed and in a steam operated spiral jet mill or in a Ground pendulum mill. The ground pigment is suitable for Incorporation into paper checked. First there is foaming after weighing of 16 g pigment, 4 g filler and 80 g water tested. To do this, use a Dissolver dispersed for 3 min at 3000 rpm and the foam formation visually judged. The coloristic properties of the pigments in paint systems are determined according to DIN ISO 150 787/24 and DIN 53 162, sheet 1. In addition, too the color tone was assessed using a powder compact.

Comparative Example 1

For the modification was a according to DE-A-14 67 442 from the implementation product obtained from trimethylolpropane and ethylene oxide in an amount of 0.4% by weight used. The test showed a strong dispersion Foaming. The optical performance and the color tone of the titanium dioxide correspond the quality requirements for applications in paper.

Comparative Example 2

0.4% by weight of 1,5-pentanediol was used for the modification. The test revealed strong foaming during dispersion.

Comparative Example 3

0.4% by weight of neopentyl glycol was used for the modification. The test revealed significant foaming during dispersion.  

Comparative Example 4

0.4% by weight of triethanolamine was used for the modification. The test revealed no foaming during dispersion, but the color of the pigment is in the Shifted to yellow compared to experiments 1 to 2 above. In the brightness there is also a disadvantage.

Comparative Example 5

The procedure was as described above, but the clinker was added without of auxiliary materials. It becomes a little sticky flowable product obtained. A silo filled with this product cannot be used empty pneumatically.  

example 1

For modification, trimethylolethane was used in an amount of 0.2, 0.3, 0.4, 0.5 and 0.7% by weight used. All products show no foaming when dispersed dung. A test of the optical performance shows good, Comparative Example 1 corresponding properties.

Example 2

The procedure was as in Example 1, but trimethylolpropane was used. All pigments do not show any foaming when dispersed and good additives game 1 corresponding coloristic properties.

Example 3

The procedure was as in Example 1, but pentaerythritol was finely ground Form used as a solid in an amount of 0.5 wt.%. When dispersing no foaming was observed. The coloristic properties are as in Example 1 good.

Example 4

20 t of an Example 1 with the addition of 0.4 wt .-% trimethylolethane pigment were loaded into a conventional silo vehicle and over a Distance of 100 km transported by road. Then the drive stuff can be emptied pneumatically without any problems.  

Example 5

An inorganic post-treated with Al₂O₃ and SiO₂ according to the prior art Titanium dioxide in the rutile form was with a 30 wt .-% aqueous solution of Sprayed trimethylolethane and ground analogous to the previous examples. The addition of trimethylolethane was 0.4% by weight, based on TiO₂. It became a Obtain pigment with good fluidity.

Example 6

The titanium dioxide of Comparative Example 4 was in a paddle mixer with a Sprayed 50 wt .-% aqueous solution of trimethylolpropane. The addition of Trimethylolpropane, based on titanium dioxide, was 1% by weight. After spraying the pigment was homogenized in the mixer for 15 min. Not compared to that treated pigment results in a significantly improved flow behavior and a significantly less tendency to clump.

Example 7

An iron oxide yellow produced by the precipitation process was turned into a rotor / stator mill with 0.5% trimethylolpropane in the form of a 50% sprayed aqueous solution and homogenized in a paddle mixer. Compared to the untreated pigment, the pigment treated according to the invention has a improved fluidity. The test showed no results in the dispersion Foaming.

Claims (8)

1. Inorganic, flowable, easily transportable, non-clumping pigments for the paper industry, characterized in that they contain polyhydric alcohols. 2. Pigments according to claim 1, characterized in that they contain polyhydric alcohols corresponding to the general formula (I) in which
R₁ H, CH₂OH
R₂ H, C₁ to C₄ alkyl, (CH₂) _y -OH with y = 0 to 2,
R₃H, (CHOH) _z -CH₂OH with z = 0 to 3,
contain. 3. Pigments according to claim 1 or 2, characterized in that it is in the Pigments are titanium dioxide, iron oxide and mixed phase pigments. 4. Pigments according to one or more of claims 1 to 3, characterized records that the pigments are non-inorganic aftertreated titanium dioxide. 5. Pigments according to one or more of claims 1 to 4, characterized records that the pigments are titanium dioxide in the anatase form acts.   6. Pigments according to one or more of claims 1 to 5, characterized records that as alcohols trimethylolethane, trimethylolpropane or pentaery thrit can be used. 7. Pigments according to one or more of claims 1 to 6, characterized records that the alcohols in amounts of 0.01 to 5 wt .-%, preferably 0.1 to 1% by weight can be added. 8. Use of the pigments according to claims 1 to 7 in papermaking lung.