DE4314522A1 - Composition containing iron powder as magnetic component and a binder - Google Patents

Abstract

A description is given of a storage-stable, non-rusting, powder composition for the production of coatings on which coverings can be fastened using magnets. The composition consists of a ferromagnetic substance, especially iron, a metal less noble than iron, especially zinc, a redispersible polymer, especially polyvinyl acetate, as organic binder, and an alkaline substance, especially calcium hydroxide, and cement. In addition, the composition may also contain a thickener, for example bentonite. The addition of a greater or lesser quantity of water produces a processable composition which cures fully in about 24 hours under normal ambient conditions. Coverings can then be fastened with magnets to the cured composition.

Description

The invention relates to a composition known as magnetic active ingredient contains iron powder and a binder. they is used to coat walls, ceilings, floors and other sub straten, on which easily and easily attached rubbers with magnets should be.

Such a composition is used as a filler for fastening known decorations by magnetic forces. So in DE 26 20 095 a method for attaching easily replaceable Surface decorations made of stone, ceramic, wood, metal and the like chen on wall, ceiling and / or floor surfaces made of the same and / or different materials described. For this it is necessary to one surface one with iron powder and one on the other surface apply a layer of the binder filled with magnetic powder and let it harden. After magnetization, the Decoration can be attached due to the magnetic effect. It will Leveling compounds made of iron powder and inorganic or organic Binding agents described. As inorganic binders called: plaster, fine plaster and cement. As organic binders liquid plastics, preferably in non-aqueous form used, e.g. B. alkyd resins, epoxy resins, polyurethanes and poly mers based on vinyl and / or acrylic compounds.  

FR 2 250 394 relates to the use of a tinned metal fabric for the magnetic connection of any materials. So should z. B. the sieve on a wooden board during its manufacture be stuck. The wooden board can serve as a partition on which decorate a decorative panel with glued permanent magnets can be increased. Rubber is mentioned as the adhesive. It will also described a pattern made of plaster, which a prefabricated Zwi is represented in which a magnet with rubber is integrated has been.

DE 40 16 939 relates to a method for reversible fastening of floor and wall coverings through magnetic adhesion. On magne non-adhesive substrates should be a magnetic one-off Coating or a magnet to be glued or self-adhesive foil are applied.

The known compositions for leveling compounds with reactives on resins and in particular epoxy resins as binders Disadvantage that they can only be processed for a limited time (Pot life), and they are too bad because of their toughness have passed. An addition of solvent would do that help, but would also cause problems with the exhaust air ben. They are not suitable for the mechanical coating of Raised floor elements. In addition, he will have very smooth surfaces hold on the surface relatively because of the low frictional forces can be easily moved. Finally, there is a risk that the iron powder will rust, especially if the epoxy content is low is to save costs. The rust does not only result in one Discoloration of the coating, but above all to a ring their hardness and magnetic adhesion.

The object of the invention is therefore to easily processing composition to find, not only with the Spatula, but also z. B. can be applied with a roller and a permanent effective base for magnetically effective Deposits.

The solution according to the invention can be found in the patent claims. It essentially consists in the fact that the ferromagnetic Substances, the rust inhibitors and the binders in the form of a Powder mixture can be stored and added shortly before use ready-to-use masses of water in just a few minutes after their application and drying on many substrates arrest. Initial concerns with an aqueous dispersion too work, because segregation easily occurs due to the relatively high specific weight of iron can occur and it also rusts particularly easily in an aqueous medium, have been overcome. It succeeded in coating with relatively little Manufacture binders that are nevertheless sufficiently firm on many Underground is liable.

The solution according to the invention consists of a composition of following components:

• A) as a magnetically active component, a ferromagnetic Material,
• B) a less noble metal than iron as rust preventive,
• C) an alkaline substance for pH regulation and
• D) a redispersible polymer as organic binder, all components A) to D) are in powder form.

A substance is considered to be "ferromagnetic" if it is under one flux of an external magnetic field acts magnetically. Is preferred Iron powder. But also magnetic iron stone (Fe₃O₄) comes into question. The  Grain size depends on the processing conditions and the Purpose and can be determined with just a few routine attempts the. Essentially the same standards apply as for the fillers.

Metals are less noble than iron when their normal potential is in Volts, measured against the normal hydrogen electrode at 25 ° C, is less than that of Fe / Fe⁺⁺, i.e. less than -0.44 volts. From The theoretically possible metals are present in addition to aluminum especially zinc with a normal potential of -0.76 volts Interest. The less noble metals cause a surface pass crossing of iron through element formation.

The alkaline substances should have a pH of more than 9. cause especially from 10 to 12. In addition to alkali hydroxides come especially calcium hydroxide and cement in question, especially port land cement or metallurgical cement (Eisenportlandzement, blast furnace ment). At the same time, they also act as inorganic binders.

The "redispersible polymers" are powders which are usually obtained from dispersions by spray drying and in aqueous media at room temperature, if necessary with stirring, in a few minutes, preferably within 3 mi grooves again into a dispersion. Suitable Redispersible polymers are e.g. B. homo- and copolymers of Acrylates or methacrylates with e.g. B. styrene. The alcohol component the ester should contain 1 to 4 carbon atoms. Preferred However, redispersible polymers are homo- and copolymers from Vi nyl esters, the carboxylic acid having 2 to 4, in particular 2, carbon atoms contains, with the copolymers ethylene and maleinates, the Al contains alcohol component 1 to 4 carbon atoms. In addition, also Casein used. It is insoluble in water, but it is insoluble in  alkaline solution. The casein powder is preferably mixed with Alkali hydroxides, borax and especially with lime milk or cement open minded. A good water resistance can be obtained with casein become. Bone glues are also possible.

Commercial redispersible polymers are those based on Vinyl acetate, vinyl acetate / ethylene, vinyl acetate / ethylene / vinyl laurate and styrene / acrylate. Manufacturers are Wacker (Vinnapas), Höchst (Mowilith), Ebnöther (Elotex), Rohm & Haas, Rhone-Poulenc and BASF.

The ferromagnetic substance, the less noble metal, the alkaline acting agents and the redispersible polymer powdery before. Your grain size is therefore less than 0.5 mm, preferably between 0.05 and 0.3 mm. They are also powder with particles sizes outside this range possible if you have disadvantages in Purchase takes z. B. dust or a very rough surface. The Com In principle, components can also be scale-like or fibrous be if the resulting disadvantages are acceptable, e.g. B. poor spreadability.

A thickener can also be used to regulate the viscosity are added, preferably in an amount of 0.2 to 2, in particular 0.4 to 1.0 wt .-%, based on the iron powder. In addition to organic high molecular weight thickeners Substances such as polyacrylates, polycarboxylic acids, alginates and Cellulose ethers such as carboxymethyl cellulose, especially inorganic ones Thickeners in question, such as. B. polysilicic acid, clay minerals s, zeolites and especially bentonites. Well-known trademarks are: Bentone (Rheox), Thixogel (Südchemie).  

In addition, other additives can be added, e.g. B. Dyes.

To the weight composition can only with respect to the base metal and the organic binder concrete rules should be given: For example, at least 5 ins particularly 10 to 50 g of base metal and 5 to 12, in particular 6 to 10 g of organic binder.

The amount of alkaline agents should be sufficiently high be around pH over 9 for an extended period of time ensure even in the presence of acids. Because the preferred alkaline calcium hydroxide and cement at the same time as organic binders are effective, a generous dimensioning is required brings. It can be of the same order of magnitude as that of the organic binders. But it is also possible, none at all add alkaline substance if you just rust strives and there are no major requirements to be met here. they can possibly only by adding base metal be fulfilled. The same applies vice versa: there can be if zinc addition is also dispensed with, if only sufficient alkaline substances are present. This applies in particular to Hydrated lime. However, the best rust protection effect is when they are used together Use of base metal and alkaline substances achieved, especially of hydrated lime.

The above components are in the form of a batch, i.e. H. she are intimately mixed. The mixture is preferred dry or powdery. But it can also be in a highly viscous form are present, the viscosity should be so high that practical no segregation occurs.  

Before use, 20 to 40 g water - based on 100 g powdery Composition - added and while stirring, the batch is added Room temperature in a few minutes in an aqueous dispersion. The amount of water depends on how viscous the dispersion will be in other words, how you want to process them, e.g. B. with a roller or with a spatula. In general, the Viscosity 20,000 to 30,000 mPas at 21 ° C, measured in the rotational viscometer Haake-VT 181.

The thin to pasty mass, which is preferably a ge has a smooth to honey-like consistency applied, especially on walls, ceilings and floors or other surfaces, such as. B. plates on which a Rubber to be attached magnetically. The mass hardens there. Depending on the drying conditions, this will usually require at least needed a few hours. After 24 hours the coating is like this hard that the pads can be attached to it. The iron The quantity to be applied depends on the requirements with what force the coverings should adhere to the surface. In all in general, 1.5 to 2.0 kg of powdery composition per m² are sufficient Covering.

The advantages of the composition according to the invention lie in its Storage stability and easy handling, depending on the desired ar either (machine or manual) as well as in their good corrosion consistency and economy. The received Coatings are flat and rough. Therefore, there is relatively large friction forces necessary to move the covering parallel to the plane, compared to a coating made of epoxy resin and the same egg quantity. Adhesion is sufficient even with a small amount of iron per m² perpendicular to the surface so that the topping is not covered with dust can be lifted up.  

Because of the good adhesive properties of the composition according to the invention It is suitable for coating substrates made of un various materials such as mineral screeds, cement, Ceramic, plastic, wood or chipboard. With the substrates, which are to be coated with a ferromagnetic layer, it concerns walls, ceilings and floors, especially double bo screed or wood panels for the production of raised floors. Other substrates are plastic-bonded chipboard.

The coverings to be applied to the substrates can be made of stone, Ceramic, wood, metal, PVC, linoleum or from textile surfaces forms be z. B. textile fabrics. The rubbers can either di rect with their manufacture or afterwards with the magnetically effective Be provided material that is both metallic and can be based on oxide. Ferrites are particularly useful.

The invention is explained in detail by the following composition:
500 g iron powder,
50 g zinc powder,
20 g polyvinyl acetate redispersion powder,
25 g calcium hydroxide and
2.5 g Bentone LT.

This composition was mixed with 180 ml of water in 2 min at room temperature by stirring with a mechanical stirrer pulpy mass processed. This was very easy with a spatula apply well to both wood and screed. After 24 The mass was hard for hours under ambient conditions. You stuck good on both surfaces. Rust formation was under usual space humidity noticeable even after 14 days 20 ° C and 95% relative humidity: the hardness of the Coating was unchanged, as was the adhesion of magnetic ones Coverings.

The discharge resistance, measured according to DIN 53 276, was about 10⁶ to 10⁷ ohm.

Claims (8)

1. Composition for coating walls, ceilings, floors and other substrates containing

• A) as a magnetically active component, a ferromagnetic substance,
• B) as a rust preventative, a base metal as iron, C) for pH regulation, an alkaline substance and D) as an organic binder, a redispersible polymer, all components A) to D) being in powder form.

2. Composition according to claim 1, characterized by iron powder as a ferromagnetic substance. 3. Composition according to claim 1 or 2, characterized by Zinc as a base metal. 4. Composition according to claims 1, 2 or 3, characterized with calcium hydroxide and / or cement as an alkaline Material. 5. Composition according to at least one of claims 1 to 4, characterized by polyvinyl acetate and casein as organic Binder. 6. The composition according to at least one of claims 1 to 5, characterized by at least 5, in particular 10 to 50 % By weight of zinc powder and 5 to 12, in particular 6 to 10% by weight of binder, based on the iron powder.   7. The composition according to at least one of claims 1 to 6, characterized by the additional use of a Verdic Kungsmittel, in particular a bentonite in an amount of 0.2 to 2, preferably 0.5 to 1 wt .-%, based on the egg must powder. 8. The composition according to at least one of claims 1 to 7, characterized by the additional use of water and other additives for the production of coating compositions in liquid, mushy or pasty state.