TH4339B - Improved method for manufacturing ceramic composite structures. - Google Patents

Abstract

Method for the manufacture of self-adhesive ceramic components consisting of the preparation of polycrystalline materials They are the oxidation products of the parent metal with oxidizers. Dant is in a vapor state. making the material in particle nature Formation of the permeable mass of the body fill it up as such particles. and infiltration of loud particles with the product of the oxidation of the parent metal with oxidant address in a vaporous state which will cause such ceramic components to arise

Claims (5)

1.How to manufacture self-adhesive ceramic components Where the above method consists of The first and second steps, whereby step one consists of: (a) impregnation of the source of the parent metal in the oxidant atmosphere. In a vaporous condition To form a molten metal body And reaction The parent metal melts with the said oxidant. At temperatures above the melting point of the parent metal But below the melting point Liquid of oxidation products, which are formed as a result of interaction between the molten and the said oxidant, in which the oxidation products are exposed and amplified. It is between the primary molten metal and the oxidant thereof: (b) maintaining the temperature in order to extract the molten metal from Or through the products of rapid oxidation directed towards the said exit. Products from React to new oxidation reactions Will be formed like Continuously at the surface of the connection between oxidant and production Previously formed oxidation products; (c) The reaction is said to be continuous for a time only. Enough to produce polycrystalline materials. Containing the above oxidation products; The second stage consists of; (d) The conversion of polycrystalline materials from one step. To be or have particle sizes To be used as a filler and The creation of the permeable mass of the filler to be as such a particle; (e) The introduction of the source of the parent metal and the permeable mass of the filler to In full as particles follow each other, thus the formation of Oxidation products between parent metal and oxidation Dan in a vapor state Will occur in the direction of aiming and Into the permeable mass of the filler to fully fill the particles; (f) heating the parent metal to a temperature above the melting point of It's just below the melting point of the permeable mass of the body. Fill it up into particles Or products from oxidation to form the primary molten metal and Reaction to the parent metal molten with oxidant. At that temperature to form a product of oxidation and at that temperature it maintains a part It is the least of the reaction products. The oxidation is in contact with and between the molten metal and the oxidation. The aforementioned To pull the molten metal through the product of making Oxidation reactions directed towards the oxidant exit. And aim and go in The permeable mass of the filler is fully formed into particles, so the product of the emerging oxidation reaction will Keep forming Within the permeable mass of the filler is the particle that faces the connection between oxidant and producing. Previous oxidation products; And (g) the action continued for a sufficient time for the oxidation product to be absorbed. Inserted and embedded at part Is the least of that mass The permeability of the filler is fully formed into particles. Causing 2. The method specified in Clause 1, where the source of The parent metal in the first step and the second stage consists of aluminum. 3. Any method specified in Clause 1 or 2, where the oxidant is in the vapor state in The aforementioned first step or second step Consisting of air 4. Any method specified in Clause 1 or 2 which consists of: Using the material Stimulated in combination with parent metal in one of the stages is at least of the aforementioned first and second stages. The parent metal in the first step and the parent metal in the second step have the same composition. 6. The method specified in claim 1, where the source of The parent metal in the first stage and the source of the parent metal in the second stage have a dissimilar composition. 7. Any method specified in Clause 1,2,5 or 6, where The oxidant component used in the first step has the same element the oxidant used in the step. 8. The method specified in Clause 1,2,5 or 6, whereby the oxidant component used in the first stage has an oxidant constituent. The number used in the Section Two 9. Methods specified in Clause 1,2, 5 or 6, where at least one additional complement is required. To be attached to the seepage mass Through the filler to be fully formed into particles In the second step Prior to step (c) of the second step 1 0. Any method specified in Clause 1,2,5 or 6, where the permeable mass of the filler gives Full Is a particle in that second step Consists of a subject that Pre-formed, self-adhesive They are shaped and permeable, and the oxidation products will penetrate The previously formed form To create a ceramic component Self-adhesive That has the morphology of the molded model 1 1. Methods for manufacturing self-adhesive ceramic components by this method consists of The first and second stages of the first phase consist of: (a) heating the first source of the parent metal, aluminum in The atmosphere of the air that acts as an oxidant. It is in the vapor state, in combination with the very least first stimulating material, to form the molten metal itself. And reaction The parent metal is molten and oxidant. At temperatures from approximately 850 ° C to approximately 1450 ° C to form alumina, an oxidation product in which the oxidation product is exposed and Expanded between the molten and oxidant parent metal; (b) maintaining that temperature To pull the molten metal like Quickly through the products of such oxidation Heading to the exit Therefore, the reaction products New zidation continues to form on the skin. The interface between oxidants and production products. A previous oxidation reaction; (c) Such a reaction is continuous for only Enough to produce polycrystalline materials. Containing the above oxidation products; The second stage consists of; (d) The conversion of polycrystalline materials from one step. To have a particle size to be used as a filler And building up Pre-formed form Or the shaped and self-permeable prototypes of the filler to be such particles; (e) Adopting the source of the aluminum mother metal and the prototype together. And so The formation of reaction products Oxidation from the reaction between the parent metal, aluminum and oxidation Dan in a vapor state Will occur in the direction of aiming and Go into the pre-formed subject Permeable thereof; (g) The reaction is continued for a sufficient time for the infiltration of the oxidation product. The pre-formed model is permeable. To create that It is a ceramic component that is morphed according to the molded body. 1 2. Methods used for the manufacture of self-adhesive ceramic components. Step one and Second step By step one it consists of; (a) The introduction of the parent metal source and the permeable base of the filler to Fully follow each other, so the formation of products from doing Oxidation reaction between the parent metal and Oxidant in a vapor state Takes place in that direction Concentrate and go into the permeable mass of the filler to fill it; (b) heating the parent metal. Until the temperature is above Its melting point But below the melting point of all that permeates. Passability of the filler to fill Or products from oxidation to form the primary molten metal and The parent metal reaction is melted with oxidant at a temperature to form a product of the oxidation reaction, and at that temperature maintains a part. At least Of the oxidation products, it is contacted and placed between the molten metal and the oxidant so that the molten metal passes through the oxidation product. Heading to the exit And concentrate and go into the permeable mass Of the filler to be filled, so the reaction products out New zidation. Will create a continuous sample within the mass The permeability of the filler fully provides the surface bonding between the oxidants and the products of the previous oxidation reaction; (c) Such a reaction is continuous for only Enough to provide the product from oxidation, seepage, insertion and implantation part Is the least of the permeable mass. Get the fillers to fill Which makes it possible to create a product Due to oxidation with a built-in filler; The second stage consists of; (d) oxidation of the product itself. With a filler embedded in it From step one to Is particle size To be used as a filler and to create mass The permeability of the filler is to be filled with such particles; (e) The introduction of the source of the parent metal and the permeable mass of the filler to As such particles follow each other, the build-up of the product from the oxidation vibration of the The reaction between the parent metal and the oxidant in a state of Vapors arise in the directed direction and into the permeable mass. Of the filler to be filled with particles; (f) Heating of the parent metal. Until the temperature is above Its melting point But below the melting point of all that permeates. Permeability of the filler particles to be filled Or products from making Oxidation reaction To form a molten metal body And the reaction of the parent metal molten with oxidant at this temperature To create a product of making Oxidation reaction And at this temperature it maintains a minimum part of the reaction product. Oxidation to contact and expand between the molten metal and The said oxidant To pull the molten metal through products from Oxidation reaction It is directed towards the oxidative exit and towards and into the permeable mass of the filler particles, so that the oxidation product that occurs. It is constantly formed within the permeable mass of The filler particles fill the surface, the connection between the oxidant and the product. From the previous oxidation reaction; And (g) the actuation of such reactions continuously for only Enough to allow the product from the oxidation permeation And buried at a part Is the least of the seepage mass. Permeability of the filler particles to be filled Which resulted in creating a The aforementioned ceramic components 1 3. The method specified in Clause 12 where the filler To be filled in one step And the fillers in the aforementioned second step have the same elements 1 4. The method specified in claim 12, where the fillers To be filled in one step The second step, and the filler, has a different composition. And the source of the parent metal in steps The second one consists of aluminum 1. 6. One of the methods specified in Clause 12,13,14 or 15. Where the oxinette in a vaporized condition in the first and second stages consists of air 1 7. Any method as specified in Clause 12,13,14 or 15. One Where it follows Body material use Stimulate one It is, at the very least, in conjunction with the metal source. Mom in one step At least Of the first step And the second aforementioned steps 1 8. One of the methods specified in Clause 12,13,14 or 15. Where the source of the parent metal in the first step And the source of the parent metal in the second step has the same composition: 1. 9. One of the methods specified in Clause 12,13,14 or 15. Where the source of the parent metal in the first step and The source of the parent metal in the aforementioned second step. There are different elements 2 0. Any method specified in Clause 12,13,14 or 15. Where the oxidant component used in the first step is the same as the oxidant used in the aforementioned second step 2. 1. Any method specified in Clause 12,13,14 or 15. Where the oxidant component used in the first step is not the same as the oxidant used in the second step 2. 2. Any method specified in Clause 12,13,14 or 15. Where there are more fillers added At least one To be buried attached to that mass Permeability of filler particles to fill In the second step before step (e) of the said second step 2 3. Any method specified in Clause 12,13,14 or 15. Where the permeable mass of the filler particle is filled in the second step It consists of a self-supporting prototype. Shaped and permeable And products from making The oxidation reaction permeates the prototype. To make yourself A self-adhesive ceramic component that follows the model of The pre-formed model 2 4. Methods used for the manufacture of self-adhesive ceramic components by this method include: Step one and Second step By step one it consists of; (a) The introduction of the parent metal source and the permeable mass of the filler. To be filled with each other, so the formation of products from Oxidation of the parent metal reaction And oxidant in a vapor state Will occur in the direction Concentrate and enter the permeable mass of the filler to fill it; (b) heating the parent metal. Until the temperature is above Its melting point But below the melting point of all that permeates. Passability of the filler to fill Or products from oxidation to form the primary molten metal and The parent metal reaction is melted with oxidant at this temperature to form the product of the oxidation reaction, and at that temperature. Will maintain at least part Of the products of such oxidation is exposed and expanded between the molten metal and the oxidant. To pull the molten metal through the reaction products Sidion is headed to the exit. And concentrates and enters the seeped mass Passability of the filler to be filled so Product of making The new oxidation reaction continues to produce an example. Because the permeable mass of the filler is within the surface, the oxidation interface is Dants and products from previous oxidation reactions; (c) The reaction continues for a period sufficient to The product of least part oxidation, permeability, insertion and implantation. Of the permeable mass of Filler to fill Which gives rise to a product of making Oxidation reactions with an embedded filler attached to it; The second stage consists of; (d) Conversion of products from oxidation at A filler is attached from step one into a particle to be used as a filler. And creating a model Pre-attached photos Permeable and has a body shape Fill up as such particles; (e) adopting a precision metal source and a pre-formed model. Follow each other so The creation of the product by making The reaction between the parent metal and the oxidant in the vapor state takes place in the directed direction and enters the formed subject. Before such; (f) heating the parent metal to a temperature above the melting point Its liquid, but below the melting point of either the pre-formed model or the product of oxidation to form the primary molten metal and the reaction of the parent metal. Liquid with oxidant At such temperature To create a Products from oxidation and at such temperatures Said to maintain part At least Of the oxidation products, touch and It expands between the molten metal and the oxidant to draw the molten metal through the oxidation product. To the border exit and to the prototype, so the product of the emerging oxidation reaction will Formed within the prototypes on the surface of the connection between oxidation Dants and products from previous oxidation reactions; And (g) the actuation of such reactions continuously for only Enough to allow the product from the oxidation to penetrate the prototype in order to form a ceramic component with The morphology of the aforementioned model 2 5. One of the methods specified in Clause 1 or 12 in which the source of the parent metal in the second stage consists of a body of a parent metal and consists of: (1) Position the permeable mass of the filler particle in the The second step. To support and hold together the metal body. A shaped mother in step (e) of the second step; (2) heating the body with the shape of the parent metal until the temperature is above the point Its melt But below the melting point of the permeable mass of the particles of Filler to fill Or products from oxidation reactions To form a molten metal body And metal reaction Mother smelt with oxidant At such temperatures to form a product of oxidation And at this temperature, it maintains a minimum part of the product from the oxidation reaction to touch and expand. Between Molten and oxidant metal thereof To extract molten metal Through products of oxidation reaction It is directed towards the oxidative exit and to and into the permeable mass of the filler particle so that the oxidation products of the The new ones are formed continuously within the permeable mass. Of the filler sector to fully surface the connection between the oxidizer Dents and products from oxidation reactions that Happened earlier; And (3) to act like Continuously, enough time for the product to be made Oxidation reaction Seepage, insertion and implantation attached to the part At least Of the mass of the filler particles, and is the construction of a ceramic component that has the same morphology as Morphology of Parent-Shaped Metal The aforementioned ceramic components consist of a cavity or pores that mimic the body. Shaped of Such parent metal (25 claims, 10 pages, 2 photos)