DD212504A1 - PROCESS FOR PREPARING KAOLIN AS A FUEL - Google Patents

Abstract

The invention relates to a process for the production of kaolin which actively acts as a filler in plastics. It is considered as an addition to the patent application "Process for producing kaolin as filler" DD - PS 157330. The invention can be applied to the entire plastics processing industry, regardless of whether products are made from thermoplastics, thermosets, casting resins or elastomers. The active action of the kaolin produced according to the invention is brought about by a heat treatment under a specific heating regime in a rotary kiln and a subsequent air classification to produce the very finely granulated end product under conditions which correspond to the fired product.

Description

Process for producing kaolin as a filler

Application of the invention

The invention relates to a process for the preparation of calcined kaolin according to DD-PS 1573 30, which can be used as an active filler in the plastics processing industry in the manufacture of products from thermosets, thermoplastics, casting resins and elastomers.

Characteristic of the known technical solutions

Fillers are used in the plastics processing industry. Their share in the plastic should be as high as possible because of the intended economic effect in terms of saving on plastics. "But they also find application for highlighting certain physical properties of the plastic. In these cases, depending on the type of intentional influencing, optimal additional quantities are required. * The respective filler addition must not, however, have an adverse effect on the plastic filler system. This requirement is satisfied only those fillers that can make an active contribution to improving the performance properties of the plastic because of their nature, which do not represent only ballast or extender ·.

The size of the active contribution of kaolin to improve the properties in the final plastic product depends on three essential criteria:

- its chemical composition

- its grain composition

- the surface quality of the saprolines

The chemical composition determines the structural composition. This in turn significantly affects the wettability of the plastic. It depends on the degree of processing of the starting kaolin. Thus, inter alia, processes for the production of molded articles from thermoplastics are known in which kaolin is used as the filler from the customary production process of the wet slurry of crude kaolin. This filler has according to the main component of Rohkaolin, the kaolinite, the chemical composition AIpO-. 2 SiO ₂ 2 2 H ₂ O.

Ss are also known processes for the production of plastic compositions in which at temperatures around 700 ⁰ C heated kaolin is filled · In this temperature range hetakaolin was formed. The then has the chemical composition AIpO-. 2 SiO 2.

There are also processes for the production of plastic products in which kaolin is used after a thermal pretreatment at temperatures around 900 ⁰ C. This forms a defect spinel of the composition 2 Al _? 0_. 3 SiO 2.

Finally kaolin is annealed before the Sinsatz as a filler in thermoplastics, to 1200 ⁰ C "In the temperature range MuIHt chemically ₁ 3 Al ₂ O ♦ is ultimately 2 _SiO? The grain composition of kaolin as a second parameter determines its amount to be incorporated in the plastic. In order to be able to fill the plastic with the highest possible kaolin content, the kaolin grains should be 100% smaller than at least 0.1 mm and the maximum of the grain distribution should be less than 0.005..mm.

To achieve such high levels of fineness, the most widely used Zarkleinerungsaggregata were used in a conventional manner such as ball mills, Schlägstiftmühlsn or disintegrators in the broadest sense. However, in all comminution processes of kaolin it is a matter of fact that the forces acting on the kaolin granules in the grinding aggregates are produced between two successive forces.

impacting a grinding media on the armor plates of the drum wall of a ball mill or the collision of a kaolin particle with a grinding pin of a striking pin mill, compared to the energy required to separate cohesive or coalesced in the calcination process individual grains are substantially too large. This leads to free surface electric charges in the kaolin, resulting in agglomeration of the Sinzalksrnchen, leading to secondary grain formation. In turn, adversely affects z. For example, the kaolin sedimentation onsyerhaites in suspension with the plastic polyol may cause "increased wear of the processing equipment, tools and tools".

Finally, the surface structure of the kaolin grains as a third and particularly important criterion for the active action of kaolin in the plastic greatly influences the dispersibility of the kaolin in the plastic polyol. This parameter is of increased importance to bsi of the thermal treatment of kaolin. Its crystal grains are characterized by relatively smooth crystal surfaces because of their natural growth. Heating of the kaolin to preparation of a calcination product according to the above-mentioned processes causes increasing temperatures after removal of the adhesive water, which proceeds substantially without changes to the crystal grains Expulsion of the water of crystallization and ultimately a perfect lattice reorganization. These two processes are associated with considerable roughening of the surfaces of the crystals and with hoisting in the crystal grains of the parent grains. "

Is then still working according to the known and usual methods for achieving a fine grain material with grinding units - sine crushing of the kaolin after the thermal treatment is required because it comes here because of partial sintering processes to grain coarsening of the intrinsically fine starting material - argeben eventually. Crystal fragments with a very large specific surface. In addition, the already mentioned surface electrical forces, which lead to grain coarsening by secondary grain formation, and the harshness result

thus nullify, which can cause unwanted side effects also by their polarity in the plastic polyol. The Sinarbeitbarkeit of such a kaolin in the plastic are thus limited. It would z. B. the viscosity of the kaolin-polyol mixture assume unacceptably high values

Object of the invention

It is the object of the invention to eliminate the aforementioned deficiencies by a new technological procedure in the treatment of kaolin.

Explanation of the essence of the invention

The object of the invention is to propose a method for producing such a kaolin as filler, which enables the production of plastics having improved physical properties such as compressive strength, ball indentation hardness, torsional modulus and sliding modulus.

Thus, according to DD-PS 1573 30 a Ausgangsskaolin with a total water content of 30% of a thermal treatment in a rotary kiln subjected such that prevail at the rotary kiln inlet 'temperatures between 300 and 400 C, preferably 360 C that the Äufheizgeschwindigkait for the discontinued material in the initial phase of between 15 ^filled ± 20 / min, preferably 18 C / Iain and in the further heating phase, 3-7 C / min, preferably 5 C / min is that the material temperature in is Flammsnzone 750-900 C, preferably at 85O C is and that the furnace flame is set with an excess air number of 1.1 to 1.25, preferably 1.15. The calcined kaolin thus obtained is rapidly cooled in a subsequent technological stage by quenching in air. The Abkühlungsgesehwindigkait should not be less than 80 / min.

Subsequently, according to the invention, the calcined and cooled kaolin is subjected to air classification for producing a fine-grained finished product in a third technological stage. For this classification process, air classifiers can become better known

and conventional design are used, with which the far 'separation of a grain fraction untar 0.1 mm is possible. It is expedient to work with the classifiers with a closed circulating air system in order to prevent the content of adhesive water in the kaolin from becoming unacceptably high due to atmospheric humidity in the case of a permanent supply of fresh air.

Furthermore, classifiers are to be used in which the material separation is based on the principle of generating a counterflow of air through a rotor with corresponding blades. The speed of the rotor is intended to separate the required grain spectrum from

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Kaolin 400 - 900 min, preferably 600 min, amount, the separation zone speed at a feed rate of about 2 t / h between 2.75 and 4.00 m / s, preferably 3j25 m / s lie.

According to the invention, kaolin should be used for the production of a product which actively acts in the plastic for 'air classification, which was calcined to give a metakaolin or defactin spinel in accordance with the thermal regime described in DD-PS 1573 30 and which has the following grain distribution spectrum after the calcination process:

0.100 mm 4 - 10 %

0.100 - 0.063 mm 5 - 15 %

0.063 - 0.040 mm 6 - 22 % 0.040 mm 55 - 85 %

According to the invention can be added to increase the selectivity of the classifier dsm kaolin before the viewing process nor such surface-active substances, which are known in the crushing under the term Mahlhilfsmittel. These include such compounds such. As organic alcohols, carboxylic acids and their derivatives and cyclic or heterocyclic hydrocarbons. The Qberflächanaktivitätswirkung of these substances prevents secondary grain formation, the u. May occur by the thermal excitation kaolin crystal lattice during the Calcinationsprozessas. Another advantage is obtained when z, B. Distillationsprodukta the fatty acid preparation or Kondansationsprodukte of fatty acids are used for this purpose, since diase substances in addition to their separating effect and dia wettability positively influence the kaolin by dan plastic and thus additionally act as a primer. As an example of such substances, stearin

acid or palmitic acid9 or their derivatives. It is also advantageous to increase the Abschaidleistung the wind classifier to make the visual process according to the invention so that the separated coarse fraction is circulated in such a way that it is added to the air classifier repeatedly to convert the remaining fine grain fractions quantitatively in the Nutzkornfraktion.

The replacement of the known and previously customary for the production of a kaolin Feinstkorn product Mahlprozssses by a visual process is proposed because it has surprisingly been found that with spun material with the same particle size distribution as milled kaolin higher proportions can be incorporated into the plastic, without a property deterioration of the plastic end product occurs. This increase in activity of the kaolin corresponding result is surprising in that, according to the previously existing state of knowledge increasing active effect in the plastic with the same thermal pretreatment only with increasing Mikrοnisierung, d. H. Crushing is always to achieve finer grain. It has been found that especially all compressive physical stresses are counteracted by the use of sighted kaolin, a greater resistance. To increase z. B. compressive strength and ball indentation hardness, but also torsion and Gleitelastizitätsmodul.

This is because the grains of the sighted kaolin are not exposed to the destructive and dislocation stresses of a milling process and thereby have only crystals having a relatively smooth surface and a mechanically undestroyed crystal structure. This is further due to the fact that the occurrence of free surface valences, which are observed during the milling process by an excess of energy supply, are avoided.

The special nature of the crystal grains of the sighted kaolin causes a reduction of its absorption capacity for the plastic before curing. Thus, the incorporation of larger amounts of kaolin in the plastic is possible without the processability of the polyol is affected by high viscosity values. On the other hand, however, the process of calcination generally remains in place

Crystal grain given thermal activation fully preserved. Dia on the nature of the crystal grains gently acting thermal treatment, the careful classification by air classification and preserved through the visual process thermal activation give the kaolin according to the invention its typical, property-improving, active effect in the plastic-filler system.

Embodiment:

39 tons of soya kaolin with a gas-water content of 28% were placed in a rotary kiln of 34 s in an amount of 1 t / h. The furnace speed was 1.0 min. The material temperature in the flame zone was 780 ° C. The oven was cooled to 4 ° C. in a refrigerator for 10 minutes.

The ealcinierter kaolin was fed after cooling and intermediate storage a üinluft air sifter via screw conveyor, elevator and rotary valve. Dia output grit the kaolin to be seen had the following picture;

100 0 100 mm 8.35 % 063 - 0, 063 mm 11.79 % ο. - 0, 040 mm 16.39 % 0 040 63.47 fo

The air classifier was charged with an hourly output of 0.5 t.

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At a speed of the rotor of 65O min, a separation efficiency of 60 % useful fraction resulted. Deran grain fractions were distributed as follows:

0.100 mm 0.1 %

0.100 - 0.063 21m 0.5 %

0.063 - 0.040 at 2.3 %

0.040 mm 97.1%

The thus-obtained, screened kaolin was incorporated in an amount of 30 % in a polyurethane elastic potting compound. Compared to ground kaolin, the following values were obtained:.

ground kaolin 39 sighted Hardness Shore A 1.25 44 Tensile strength (MPa) 206 1.52 Elongation at break (%) 49.4 286 Tear strength (I / cm) 61.5

An addition of 0.1 % fat oxidate, a residue of the fatty acid distillation, resulted in an increase of the separation efficiency of the separator for the useful fraction of 8%.

By returning the coarse grain twice to the classifier, the yield could be increased by 12%.

Claims (4)

- ti Erfindungsansprücha: 1. A process for the preparation of kaolin as a filler according to DD-PS 157 330, characterized in that of thermally treated kaolin with a starting grain of 0.100 mm 4 - 10% 0.100 - 0.063 mm 5 - 15% 0.06-3 - 0.040 now 5 - 22% 0.040 mm 55 - .85% by air classifier of known design with recirculation system in a Ho -1 / "~ 1 tern speed int classifier of 400 - 900 min _t preferably 600 min and a separation zone speed between 2.75 and 4.00 m / s, preferably 3 »25 m / s, a fine-grained material with a share of over 95% less than 0.040 mm is separated. 2. A process for the preparation of kaolin as filler according to item 1, characterized in that the thermally treated kaolin before the air classification to increase the selectivity des.Sichtars for dia separation of the kaolin Nutzfraktion organic compounds such as alcohols, carboxylic acids or derivatives thereof or cyclic or heterocyclic hydrocarbons in amounts of 0.2-3.0 %, preferably 1.0%. 3. A process for the preparation of kaolin as a filler according to item 2, characterized in that in particular those substances are used to heightening the separation efficiency, in addition to the ooerflächenaktiven effect also dia wettability affect the kaolin through the plastic positive and the substance groups sulfonic acids and derivatives , Amino acids and derivatives as well as fatty acids and derivatives belong « 4. A process for the preparation of kaolin as a filler after Pkt «1, characterized in that to increase the Abscheidaleistung the separator, the separated kaolin coarse grain repeatedly dam process is supplied in the way that a technological cycle takes place.