DE3803786A1 - Mineral binder and process for its production and processing - Google Patents

Abstract

The mineral, pulverulent or granular binder, which can be, for example, gypsum, cement and/or building lime, contains one or more thermosetting (reaction) plastics. The special feature is that thermosetting plastic particles (1) adhere firmly at least on one part of the particles (2) of the mineral binder, covering their surface only partially. The end product produced with the binder obtains in this way a very uniform mineral structure having firmly bonded-in plastic particles which can themselves or by means of materials incorporated therein, e.g. colour pigments, give the end product certain advantageous properties.

Description

The invention relates to a mineral powdery or granular some binder, e.g. Gypsum, cement and / or building lime, which is to be set with water, and processes for the production and Processing of such a binder.

The binders mentioned are found primarily in the construction industry for the production of shaped solid structures, as mortar, ver filling compound, for thick and thin coating and for painting Use. In many cases, however, certain can be achieve the desired properties only imperfectly. Some Color pigments are only embedded loosely and are covered by rain or washed out. Plastics added as additives act film-forming and hinder breathability. Plastics are basically able to permanently use color pigments to enclose and hold. However, plastic colors tend due to poor breathability and superficial oat under unfavorable conditions to blisters and cracks form and peel off the surface.

The invention is therefore based on the object, a mineral to create sches binder of the type mentioned with  whose help better than before the end to be made with it products are given certain advantageous properties can.

The above object is achieved in that at least on a part of the particles of the binder, the Only partially covering surface, reaction plastic par stick to the article.

Since the plastic particles only on a fraction of the upper surface of the mineral particles are clawed with them, if the water comes into contact with them during processing, and the normal setting process can take place in which the mineral particles grow together and become one unite mineral structure. But keep the Reaction plastic particles and the pig embedded in them elements and other fillers their fine distribution and solid Binding in the mineral structure. In this distribution the plastic does not form a film-like barrier layer, in one more like a shed build-up. One with one Binder manufactured structure or a structure produced with it Coating have a very homogeneous structure, which is against is extremely resistant to external influences. After setting, the material is e.g. permanently colors. In other applications, depending on the material choose the upper by integrating the plastic particles surface refined, e.g. particularly abrasion-resistant, hydrophobic or be made hydrophilic. Next to it is the possibility, too other mechanical properties, e.g. the ability to ab sorption of deformation work, especially the vibration and sound insulation, as well as e.g. by means of metallic Fillers to influence the electrical properties.

In a preferred embodiment of the invention, the reaction  plastic particles much larger than the mineral par particles, so that several mineral particles easily a plastic particle can be attached. As a reaction plastics come primarily from multi-component liquids plastics of the type such as epoxy resins, polyurethanes, acrylics latex, polyester resins, silicone resins and the like in question. In special applications with the same binders different reaction plastics Ver find application, especially those that are normally very difficult to process at the same time sen. This difficulty does not matter here because the individual reaction plastics down to the finest particles divided into the µ range and each with the minerali particles can be connected.

To achieve certain properties of the final product one does not, however, just select one or more ge suitable reaction plastics. Before further Zugter embodiment of the invention can rather also be featured can be seen that the reaction plastic particles pigments, metallic or other the properties of one with the bin filler influencing the manufactured building material contain fe to e.g. a consistently uniform Color or certain electrical or magnetic properties to generate.

In a first practical embodiment of the invention the reaction plastic particles reacted. they behave then when setting the mineral material like an inert Aggregate or filler. The invention also leaves the Possibility open that the reaction plastic particles still in itself, with other reactive plastic particles of the bandage by means of or with further reaction supplied during setting  plastic components are reactive. Then the Ab bind or reaction of the plastic that is still taking place afterwards can e.g. to create another bond matrix Plastic bridges next to or within the mineral structure lead.

A preferred practical method for producing a mineral binder according to the invention is that liquid reaction plastic is first atomized through a nozzle opening and the droplets are cooled to below their reaction temperature and solidified, and then in suspension the particles of the mineral binder with the reheated reaction plastic droplets in Be brought into contact. The cooling of the reaction plastic droplets formed by atomization is expediently carried out by means of a cryogenic liquid, for example. Liquid nitrogen. In order to obtain very small reaction plastic particles, it is normally sufficient to crush the reaction plastic droplets formed by atomization by bursting in a cryogenic liquid upon quenching. However, there is also the possibility of grinding the droplets solidified by cooling.

To end up with a powdery or granular mineral bandage to obtain medium, care must be taken that the mineral Particles glued together by the reaction plastic will. This goal can be done in a simple version of the inventive method in that the parti of the mineral binder when combined with the reaction plastic droplets in suspension will hold until the reaction plastic is solidified. Alternatively, an mi crush the mineral binder again and ge be ground.  

In a further preferred embodiment of the invention preferred method for processing a fiction According to mineral binders, this is for setting water or an aggregate used a reaction contains plastic, which with the mineral Particles adhering reaction plastic particles reacted. In this way, e.g. using an aqueous emul sion of a reaction plastic component in addition to minerali build a plastic bond.

The invention is based on some schematic below Drawings explained in more detail. Show it:

Fig. 1-3 each a reaction plastic particle, which is clawed with 6 or 4 or 2 mineral particles;

Fig. 4-6 symbolic representations of elements ge according to Figures 1-3 with 4 or 2 or a mineral particles after their hydrogenation when setting.

Fig. 7-9 Basic sketches of structures formed after the mineral binder has set. In the illustrated exemplary embodiments according to FIGS. 1-3, the reaction plastic particle 1 is in each case larger than the mineral particles 2 firmly connected to it. The reac tion plastic particle encompasses or claws a limited number of mineral particles, possibly only a single one, but the mineral particles are not completely enclosed by the plastic, so that they come into contact with water when setting. In contrast to the illustration, the reaction plastic particles 1 can contain further substances, for example colored pigments, metal particles or other additives, with the aid of which certain properties of the end product produced by the setting of the mineral particles 2 are to be obtained or influenced. In a further deviation from the examples shown, the mineral particles 2 could be as large or even larger than the reaction plastic particles 1 . The claws between the two also happens in that the reaction plastic penetrates in the liquid state in indentations of the mineral particles 2 and encloses irregular projections on them. In this way, a positive anchorage of the reaction plastic particles 1 with the mineral particles 2 is achieved.

When tying, where z. B. on the hydrogenation a crystal formation of the mineral particles with the consequence of growing together, the irregular A grip connection with the reaction plastic particles 1 with means of irregular indentations, undercuts and protrusions is preserved. A mineral matrix is formed, the intergrown crystals of which, in Fig. 4-6, as well as the mineral particles from which they originate, are designated by 2 , in the same way and with the aid of the same surface structures of the reaction plastic particles 1 , which had previously provided for the firm connection with the mineral particles 2 and are releasably clawed to the reaction plastic particles. It goes without saying that a reaction of the plastic particles 1 taking place simultaneously during the setting process of the mineral particles 2 , for example by means of a reaction resin component emulsified in water, can also produce a connection of the reaction art material particles to one another in addition to the mineral bond.

FIG. 7 shows a possible structure of the material structure, as can arise, for example, after hydration of a solid body produced from particles according to FIG. 1 or 2. The mechanical bond is brought about by conventional clawing of the mineral crystals, but the starting crystals are "bundled" by the enclosed micro-reaction plastic particles. Simply because of such a structure, higher mechanical strength values can be obtained.

Fig. 8 and the section shown on a larger scale according to FIG. 9 illustrate the effects of the invention on the surface of a body made with the new binder or order. The integrated reaction plastic particles can act as an abrasion-resistant filler and, especially with a higher proportion, also have a surface-enhancing effect. In addition, as already mentioned, intensive pigments can be embedded in the plastic particles 1 . The structuring of the mineral structure by the reaction plastic particles 1 on the surface of the shaped solid can lead to a diffusion behavior which is dependent on the structuring, while at the same time a hydrophobic surface effect is achieved by a kind of scale skin effect. If necessary, a vectorially defined diffusivity can also be achieved by a specific orientation of the material structure. When using reaction plastic particles of high hardness, the mechanical abrasion resistance of the mineral body can be improved. In another case, again by suitable selection of the reaction plastic particles, the deformation change absorption and especially the sound absorption can be improved.

Despite the material influenced by the reaction plastic properties can be obtained with the new binder provided masses, mortar, plasters and other coatings apply to mineral substrates without any problems since the mineral component in the binding agent generated. It does not matter whether the bindemite in individual cases only one or more different minerali components, and it is also irrelevant whether one or more of these mineral components with egg nem or with several reaction plastics by clawing tion of the individual particles are firmly connected. Finally, the invention is largely independent of how the plastics are reacted. The mentioned multi-component liquid plastics can e.g. cold curing or also temperature-dependent, e.g. heat curing, be.

Claims (11)

1. Mineral, powdery or granular binder, for example gypsum, cement and / or building lime, which is to be bound with water, characterized in that at least on part of the particles ( 2 ) of the binder, the surface of which is only partially covering, reactive plastic particles ( 1 ) stick. 2. Binder according to claim 1, characterized in that the reaction plastic particles ( 1 ) are larger than the mineral particles ( 2 ). 3. Binder according to claim 1 or 2, characterized in that the reaction plastic particles ( 1 ) from one or more multi-component ten-liquid plastics of the type such as epoxy resins, polyurethanes, acrylates, polyester resins, silicone resins and the like .. 4. Binder according to one of claims 1-3, characterized in that the Re aktionskunststoffpartikel ( 1 ) pigments, metallic or other the properties of a material produced with the binding agent tel influencing fillers. 5. Binder according to one of claims 1-4, characterized in that the reaction plastic particles ( 1 ) are fully reacted. 6. Binder according to any one of claims 1-5, characterized in that the Re action plastic particles ( 1 ) are still reactive, with other reaction plastic particles of the binder or with other reaction plastic components supplied during setting. 7. Process for producing a mineral binder means according to one of claims 1-6, characterized characterized that liquid reaction plastic atomized through a nozzle opening and the Droplets solidified below their reaction temperature and then the particles of the mineral binder with the reheated Re action plastic droplets brought into contact with who the. 8. Binder according to claim 7, characterized ge indicates that by atomization formed reaction plastic droplets by a cryo gene liquid, such as B. liquid nitrogen, cooled weden. 9. The method according to claim 7, characterized records that those formed by atomization Reaction plastic droplets due to bursting when Ab horror crushed in a cryogenic liquid and / or ground in a chilled state.   10. The method according to any one of claims 7- 9, characterized characterized in that the particles of the mine ralic binder in connection with the reak tional plastic are kept in suspension as long as until the reaction plastic has solidified. 11. Process for processing a mineral binder means according to one of claims 1-6, characterized - marked that that for tying water or an aggregate used a reaction contains plastic, which with the mineral Particle-adhering reaction plastic reacts.