TH4127B - A method of making a combination of seramic-type items by copying the reversal of a used prototype. - Google Patents

Abstract

Method for producing load-bearing composite ceramic elements in which there is at least one internal cavity. which replicated back from the shape of the tree used and then destroyed The method includes the steps of enclosing the tree. The spent form decomposes with the support containing the material. The disintegrating prototype is chemically or physically removed from the support and a source metal is inserted into its internal cavity. The source metal is heated to a temperature above the melting point of the metal and the process of the oxidizing reaction begins, with the infiltration of the oxidizing reaction product and encapsulating the surrounding support. that, the backing and/or the metal Excessive birth will be eliminated. When this is the case, it will work. It is a combination of strength-bearing ceramic compound that has an internal cavity. The image like a used prototype then disintegrates.

Claims (7)

1. A production method is made of a load-bearing composite seramic that has at least one internal cavity which reverses the shape of the prototype. Ceramic core substance Obtained by oxidizing the source metal to cause a Are many crystals connected to each other that contain the product of The oxidation reaction of the origin metal with the release agent. The method consists of steps of (a) preparation of the decomposed prototype material (b) loading the prototype material into layers. Substance that entered To be able to replicate the shape of the prototype material. Inside the substance The substrate has a special characteristic: (1) permits such oxidizing agent under the condition of Operation in step (c) and allow the product of the The growing oxidizing agent permeates through the substrate and (2), at least in the receptacle of the substrate, is encapsulated with sufficient bonding force to maintain its shape. Can be copied back within the said substance layer under the condition of black Perform a procedure (c) (c) replacing the said prototype material with its source metal, quantity. One, and keeping the temperature above the melting point of the primary metal Such a generator, but below the melting point of the product of the reaction. Such oxidizing to preserve the source of the molten metal. And at this temperature (1) there is a reaction between the molten metal and the substance. It is oxidized to produce a product of the (2) The treatment provides at least part of the yield of The oxidizing reaction is in contact with and is between The molten metal source with the aforementioned oxidizing agent to Resulting in a constant displacement of the molten metal from the source The molten metal undergoes the product of an oxidizing reaction. And enter the substrate layer to form a channel Within the said substrate layer at the same time While the product of the oxidizing reaction takes place continuously At the junction between the said oxidizing agent and the product of The previous oxidizing reaction and (3) the reaction for a long time that at least Some of the substrates will eventually penetrate into the product of This oxidizing reaction is characterized by an increase in the yield of Such an oxidizing reaction to form a mixture. And (d) the separation of the resulting load-bearing mixture 2. Method according to claim 1, where the prototype material is replaced. Where by vaporizing when in contact with the molten metal That is poured onto the prototype material. 3. Method according to the claims. 1 where the prototype material Is removed from the layer before the underlying material is Is replaced by the aforementioned metal. 4. Method according to claim 3, where such quantity of The origin metal added to a molten state. 5. Methods of one of the claims 1,3 or 4 include the chemical removal of the prototype material. Or physical Pre-heating of the substrate Said until the temperature is equal to or higher than the temperature of the original metal Molten And while maintaining the temperature of the secondary layer Get it at the preheating temperature there will be The addition of the said quantity of the molten metal into it 6. Method according to claim 3, where such quantity of The added source metal contains a material of choice from Group consisting of powders, granules, particles and mixtures of these materials; 7. Method of claim 1,2,3,4 or any of the 6 Where the prototype material can be selected from the polystyrene group Polyurethane foam Quality level of bees that are not recycled And mixtures of these substances. 8. Method of claim 1,2,3,4 or any of the 6. Such oxidizing agents consist of an oxidizing agent in a vapor state. 9. Method of claim 8, where such oxidizing agent is It consists of gases containing oxygen as an element 1 0. Method under claim 8 where the oxidizing agent is It consists of gases containing nitrogen as an element 1. 1. Method of claim 8, where the oxidizing substance is That is, air 1 2. Method according to claim 8, where the substance is oxidized as 1. Method 1, Clause 1,2,3,4 or 6, where the source metal contains aluminum origin metal 1 4. Method According to one of the claims 1,2,3,4 or 6, where the said oxidizing agent is a solid or liquid. At such temperature 1 5. Method of claim 14 where the oxidizing substance as It is possible to select from a group containing silicas, boron and compounds that can be reduced by the origin metal 1 6. One of the methods of claim 1,2,3,4 or 6 where the primary metal The generator consists of selected metals. Obtained from a group consisting of silicon, titenium, tin, zirconium and hafnium. 1 7. Clause 1,2,3,4 or 6 any one of the above-mentioned oxidizing agents. Selected material Obtained from oxygen-rich gases Gases containing nitrogen (Chemical formula) 1. 8. Method for any Claim 1,2,3,4 or 6 in which the aforementioned supports consist of material selected from Group consisting of hollow particles, particles, powders, fibers, fine materials, spherical shapes, hollow spheres, granular metal capillaries, fine sheets, granules, fabrics, refractory fibers and mixtures of them. Right 8, where the substance supports it. Including materials selected from the group consisting of silicas, silicon carbides, alumina, zirconia and their mixtures 2 0. Methods according to claims 1,2,3,4. Or any of the 6 in which the substrate will include an oxidizing agent that is A solid or a liquid oxidizing agent is also included 2 1. Any one of Clause 1,2,3,4 or 6 method in which the source metal contains aluminum origin metal, the oxidizing agent contains gases containing Oxygen is an element and the temperature thereof will be from about 850 degrees Celsius to approximately 1450 degrees Celsius 2. 2. Any method of claim 1,2,3,4 or 6 will include the use of a promoter at least. One of the same origin metal 2 3. Method according to claim 22, where the substance promotes Such reactions consist of at least the source of the material. Two types of materials can be selected from a material group consisting of magnesium, zinc, siliconium, germanium, tin, lead, boron, sodium, lithium, calcium, phosphorus, yite, and rare-earth metals. 4. Method according to claim 23, where rare earth metals are as Contains materials that can be chosen from a group consisting of lanthanum, cerium, prassiodium, neodymium and samarium 2. 5. Method according to claim 22, where the origin metal is It contains aluminum, substances that promote such reactions. Contains a good source of magnesium and silicon and loud oxidizing agents. Containing air 2 6. Any method of claim 1,2,3,4 or 6 will include the preparation of at least promoters At least one part of the substrate 2 7. Any one of Clause 1,2,3,4 or 6 Means shall include the mixing of the binder with the substrate as follows: Say at least in the said reserve for the said substance (27 claims, 5 pages, 3 photos).