DE1905595C3 - Process for the production of porous molded parts - Google Patents

Description

The invention relates to a method for producing porous molded parts by joining of metallic and / or non-metallic fibers with one another by means of a binder.

It is known to use porous molded parts made of fibrous materials, for example for filter purposes, as a catalyst carrier, Electrodes for batteries and fuel cells, in the form of porous fleeces, plates or other components To use shape in technology. When making fiber molded articles by mere felting, is the dressing is relatively loose and inadequately fixed for most processing purposes. Man has helped by sintering the fibers to form the desired shaped bodies. By Sintering results in a good and solid fiber composite, but it is a high level of equipment Effort required to locally so evenly distribute the comparatively high sintering temperatures to bring relatively larger fiber mass to the effect that the sintering process is homogeneous in the entire mass runs and local overheating zones, in which instead of sintering, the Individual fibers takes place and the shape retention is lost, to prevent, or also to relatively cooler zones avoid where there is no surface connection of the individual fibers with one another, so that Looseness remain in the finished fiber skeleton, which can have a detrimental effect on later use.

It is also already known to process fibers into molded bodies by gluing them to one another. if if the known adhesives, such as plastic glue, are used for this purpose, these can simply be applied to the Apply the fiber surface in a fiber agglomerate, but porous fiber moldings or Fiber skeletons can only be used in a relatively limited temperature range, since the after No evaporation of the adhesive solvent and / or binder remaining after setting have sufficient temperature resistance. Another disadvantage is very often that it is insufficient Resistance to organic solvents.

The invention is based on the object

ίο to fix disadvantages and a connection method for Fibers for the production of a porous fiber molded body that is solid and useful as a structural element create that neither requires high equipment expenditure, nor the finished molded body temperature-dependent

is dependent or insufficiently resistant to organic Solvent makes.

This object is achieved in a method of the type described at the beginning for the production of porous molded parts by connecting metallic and / or non-metallic fibers to one another by means of of a binder according to the invention in that temperature-resistant inorganic binders are used Substances whose melting point is lower than the melting point of the fibers to be connected, distributed in a liquid which evaporates without residue below the melting point of the binding agent as a coating are applied to the fibers, the liquid evaporates from it and what remains on the fibers Binder is fused.

The fibers can with solders and / or enamels and / or silicates and / or borates and / or phosphates be coated as a binder. Such substances are temperature and usually also corrosion resistant. True, the use of melting components in sintering technology known per se; however, it is difficult, for example, to attach metal fibers or ceramic fibers with solder sheath. The inventive method is based on the fact that the solders or other binders in the form a slurry in liquid media are applied to the fibers to be joined. Included liquids are used for the slurry, which are at the melting temperature of the solders or Emails or the other binders that are used

Ί5, evaporate without leaving any residue. Then will the binder substance remaining on the fibers melted.

It is particularly advantageous if the fibers are previously or simultaneously with the binder with a Adhesive coats, leaving no residue at temperatures below the melting point of the binding agent lying, evaporated. One can add adhesives such as polyvinyl alcohol to the slurry Add serving liquids so that not only the slurry is secure on the individual fibers adheres, but also stick the fibers covered with the slurry to one another. The selection the additional adhesive is comparatively large. Any adhesive can be used that has one have an adhesive effect, provided that they are residue-free at below the melting point of the evaporate the binder used at the temperature.

You can also apply the adhesive prior to application

Add <> 5 to the binder slurry. So you can the fiber particles to be connected first with a z. B. aqueous adhesive containing solution or Combine dispersion with each other and after

Drying this solution or dispersion with the slurry of the binder, for example one Solder slurry or an enamel slip. The fibrous materials can be after having first covered them with the adhesive as the first coating, then to the for shape the molded parts in the desired shape and then coat them with the binder slurry, which you then dry up

The adhesive can also be added to the binder distributed in the liquid and together with Apply this as an overcoat, and it has proven to be advantageous if you apply this Covering the fibrous materials makes in such a way that the fiber material in one A gas-liquid stream containing binders and adhesives is transferred to a static stream provided with a separating agent or moving shaping substrates sprayed on. After drying, the formed Remove the molded body from the base and subject it to the heat treatment without any additional support body. This is a further advantage of the method according to the invention, because it is used in the In general, sintering technology safely bypassed the necessary pressing.

The method according to the invention therefore offers the possibility of producing such molded parts from fibrous materials produce whose pore volume is up to 98%.

For special applications, for example in filter technology, elements are very often required, which on the one hand have a very high porosity, on the other hand also a sufficiently high mechanical Have stability. In the method according to the invention, it is easily possible that one with the Adhesive and / or the binder coated fibers on support bodies made of, for example, perforated Laying metal sheets, wires or wire meshes and connecting them to them through heat treatment. if the heat treatment is heated above the melting point of the binder used, not only a perfect connection between the individual fiber particles, but also a perfect one Connection with the support body.

A particularly advantageous method of sealing the fibers with adhesives and optionally with binders provided, consists in that fibers in a jn for example Liquid-gas flow generated with the help of a spray gun trickle and carried away in this flow so that they are on the respective substrate together with the binder and the adhesive be sprayed on. The binders, for example solders and enamels, can either be used together with the Fibers trickle in this liquid-gas flow, or finely powdered mixed with the spray liquid be.

Claims (4)

Patent claims: 1. Process for the production of porous molded parts by connecting metallic ones and / or non-metallic fibers with one another by means of a binding agent, characterized in that that as a binder, temperature-resistant inorganic substances, their melting point is lower than the melting point of the to be joined Fibers distributed in a residue below the melting point of the inorganic substances evaporating liquid can be applied to the fibers as an overlay, the liquid from it evaporated and the binder remaining on the fibers is fused. 2. The method according to claim I, characterized in that the fibers are coated with solders and / or enamels and / or silicates and / or borates and / or phosphates as binders. 3. The method according to claim 1 or 2, characterized in that the fibers before or at the same time be coated with the binder with an adhesive that leaves no residue at temperatures that are below the melting point of the binder, evaporates. 4. The method according to any one of claims 1 to 3, characterized in that the with the or the Means coated fibers on support bodies made of perforated sheets, wires or wire cloth are applied and connected to them by heat treatment.