TH4255B - Method for the manufacture of ceramic hulls and ceramic hulls. - Google Patents

Abstract

This invention relates to methods used for producing protective shells on ceramic bodies or ceramic components. When specifically mentioned, it is related to the introduction of ceramics or Ceramic components that are interconnected with metal Residues in that place go into an atmosphere set up specifically for that. will create enclosures to form on the metal that connects them Such shells are resistant to corrosion, especially in gaseous or solid environments. Sodium and silicon are commonly found in glass or glass tanks.

Claims (1)

1. Method used for the manufacture of a self-adhesive ceramic body containing; (a) the presence of a parent metal body; (b) heating the parent metal. Until the temperature is high Than its melting point. But below the melting point of the product Obtained from its oxidation reaction To cause It is the primary molten metal and at this temperature it has the following activities: (1) Reacting the molten parent metal with the oxidant to form the oxidation product of the parent metal. (2) keeping at least part of the product from The reaction of such oxidation. Have been in touch with and lived Between the molten metal itself And oxidation thereof in order to extract the molten metal from the molten metal It passes through the product of oxidation and comes into contact with the said oxidant, which will cause The product from the oxidation reaction rises at the site. The connection between oxidants and the resulting products Previously occurring oxidation reactions, and (3) sustained impaction of such reactions. It is sufficient time for the ceramic to occur. The first; (c) the first such contact of the ceramic body To the environment Which consists of glass particles that will form a shell At least part of The first surface of the ceramic body was formed; And (d) the continuous exposure in the (c) step. It is a period sufficient to achieve at least a flat shell. Any part of the ceramic that There was such a first occurrence of 2. Method used for the manufacture of self-adhesive ceramic components containing; (a) parent metal arrangement; (b) the introduction of the parent metal to the permeable mass. Get of fillers And handling the said parent metal and the Fill in such Is in such a way as to make the emergence of The products of such oxidation take place in the directed direction and go into the filler mass; (c) Heating of the parent metal. Until the temperature is high Than its melting point. But below the melting point of the product Obtained by its oxidation to form the molten metal itself, and at this temperature The following activities will be performed: (1) the reaction of the molten parent metal with the oxidant to form the product of the parent metal's oxidation reaction (2). Part of the product From the reaction of such oxidation Stay in touch with and In between the molten metal And that oxidant in order to extract the molten metal from the molten metal itself. This is done through the product of the rapid oxidation, then concentrates on oxidants and towards and into Contact with the mass of the filler, thus will cause it to be produced The product from the oxidation reaction continues to rise. Within the mass of the filler on the common surface during oxidation Dants and previous oxidation products, and (3) the continuous intermittent action. Sufficient time for the formation of a ceramic component. First time; (d) First exposure to the ceramic component. Such as the environment Which consists of glass particles This will cause a coat of hair, at least part of the The first surface of the ceramic component; And (e) the continuation of the exposure described in step (d) for a sufficient time to construct the upper shell. The least Part of the ceramic component formed 3. Method specified in Clause 1, where the environment The enclosures contain glass particles. Will continue to be assembled With combustion products obtained from gas reactions Nature and air 4. Method stated in claim 1, where particles Of the aforementioned glasses At the very least, the glass that is sodium silicate. 5. Method specified in claim 1, where the shell Such covers consist of Oxidation products 6. Method stated in claim 2, where the shell Such covers consist of Oxidation products 7. Method specified in claim 2, where the mass of The aforementioned permeable filler consists of at least one material selected from the group consisting of alumina and silicon carbide. 8. The method specified in claim 1, where the sheet metal is It consists of aluminum 9. Method specified in Clause 2, where the plaque contains aluminum 1. 0. Method specified in Clause 1, where there is such an oxidant. Contain at least Oxidant One selected from a group Which consists of Oxidant Solid oxidant And oxidant liquid 1 1. The method specified in Clause 2, where the issue is issued. Contain at least Oxidant One selected from a group consisting of Oxidant with status Is a solid oxidant. And the oxidant that has Liquid state