TH3749B - Improved ceramic structure And the way of doing it for this purpose - Google Patents

Abstract

Methods of manufacturing structures of self-adhering ceramics consisting of: (i) products of pho oxidation reactions lycrystalline formed under the oxidation of the parent metal where molten with oxidant and (ii) contact permeability between them, with at least some opening on the surface. the face of the aforementioned ceramic fuselage The second material which is ceramic Polycrystalline is introduced into the permeability of the said ceramic body in order to improve or change its properties.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : Of the veramic. They are the second polycrystalline. 2. Method of manufacturing products that are composed of ceramic. Self-adhesive stabilizer that consists of the steps of: (a) Creation of a self-adhesive ceramic component containing the ceramic matrix of the product from the making. Oxidation reaction with implants At least one filler By a self-adhesive ceramic component Will show the pores are partially connected and created by Melting the parent metal and reacting the parent metal with oxidation. Dant to form a product of oxidation reaction. And the removal of the molten metal through the reaction products Sidion is headed to the exit. And a filler material At the very least, so the reaction products Oxidation will continue to form. Inside the mass of the filler The interface between oxidants and products from The previous oxidation reaction was created and that reaction continued for sufficient time to Seepage part At least Of mass of material (B) the initial metal dispersion. Which can create the components The second polycrystalline ceramics penetrate into the least part of the pores by causing the contact to weld. Fasten the starting metal to such a hole. The initial metal can Permeate part At least Of the seepage connected thereof; And (c) seepage. It is the minimum of the perforation connected by the starting material. And making it happen. They are the second polycrystalline ceramics. To build into production 3. The method specified in either Clause 1 or 2, where interconnected pits are constructed. By spraying only the primary molten metal In order to create a permeation between each other in part. At least Of the ceramic components that occur in step "a" 4. The method specified in claim 3, where the permits are interconnected. Will be generated by distribution All molten parent metals Which causes the formation of a seepage 5. The method specified in Clause 1 or 2, whereby any interlinked permeation is established by contact. A ceramic component created in step "a" with a detergent to dissolve or disperse the metal. Connected to each other before distributing the factors that are The second polycrystalline ceramics are there. 6. Method according to claim 5, where the denominator Such ceramic assemblies created in step "a" come in contact with a reagent for sufficient time to dissolve or disperse the metal. It connects to the periphery orderly and at the same time separates the periphery from the center from being affected. 7. Method as stated in Clause 5, where the denominator. Such ceramic assemblies created in step "a" come into contact with the reagent in such a way that the metal interconnect is 8. The method specified in Clause 1 or 2, where the parent metal consists of a metal selected from the group consisting of aluminum, silicon, titanium. Tanium, Tin, Zirconium and Hafnium 9. Any method described in Clause 1 or 2 where the parent metal consists of aluminum and products from The polycrystalline oxidation reaction is initially alumina 1 0. Any method specified in claim 1 or 2, where the interlocking pores will have Approximately 5 to 45% by volume of the ceramic before it is infiltrated. With the aforementioned second ceramic factor 1 1. Any method specified in claim 1 or 2, where the second ceramic factor is composed of chromia or silica 1 2. Method of Creating a self-adhesive ceramic component that consists of the steps of: (a) Creating a self-adhesive ceramic component that contains the ceramic matrix of the fabrication product. Oxidation reaction implanted with a filler material One is, at the very least, by the self-contained ceramic component Itself will show the permeation of the connection between them at least partially And built up by melting Mother metal and reaction of parent metal molten with oxidant To form a product from oxidation and removal of the molten metal through the reaction product. At least one filler and one exit, so the product from the making Oxidation reaction The dendron is continuously built up within the filler mass. At the surface of the connection between the oxidant and the product of making Previously formed oxidation reactions and The reaction continued for a time sufficient to Seepage part At least Of mass of material Such fillers; (b) Contacting the abandoned ceramic component in step "a" with the leaching agent to separate the interconnected metal. In there some part To be the least; And (c) seepage, the least part of the pores that are interconnected with the initial metal. And factor building They are polycrystalline ceramics, which are used to create two. Ceramic components (12 claims, 4 pages, 4 pictures) 1. Method of manufacturing a self-adhesive ceramic composite product that consists of the steps of: (a) Creation of a self-adhesive ceramic component that contains the ceramic matrix of the made product. Oxidation reaction with implants At least one filler material By the self-clamping ceramic component Will show the part that is a permeation and some connection between them At least And built up by melting the parent metal And the reaction of the molten metal with the oxidant to form the product of oxidation reaction. And metal pulling Melted through products of continuous oxidation With at least one of the filler and the oxidant exits, so the oxidation products The dendences are constantly built up within the mass of the material. Replenishes the surface of the connection between oxidants and products. From the previously created oxidation reaction And to do such reactions continuously for just The minimum permeability is at least part of the mass of the filler material; And (b) the second polycrystalline ceramic component distribution. In the least part of the permeation to form a composite product of ceramics that contributes