TH4110B - Seramic items containing modified metal components And how to do these things - Google Patents

Abstract

Method for producing tensile ceramic pieces with modified metal elements. This method includes the first step to making it available. Strong ceramics are formed that consist of (i) the product of many crystalline oxidizing reactions connected at Occurs when a substance is oxidized to a molten source metal. liquid with oxidizing agents; and (ii) metallic elements. a connection between which is at least partially accessible from moist outer surface One or more such ceramics having touched one's skin or more of a piece of ceramic versus one quantity of non-metal that differs from the interconnected metal elements that The temperature is high enough and it is long enough to cause diffusion. converge in this way at least part of that element As such metals will be replaced by such metals. This resulting ceramic with a altered metallic composition exhibits altered or improved properties.

Claims (3)

1.Production method for strong serami pieces containing modified metal elements It consists of the process of (a) the formation of a strong seramid piece containing (i) the product of a multicrystalline oxidizing reaction connected The same occurs when the material is oxidized to the origin metal. Melted with oxidizing agents and (ii) metallic elements A connection between them that, at the very least, will reach some Part from at least one surface of the seramic slice (b) the contact of at least one such surface of the serous piece Such mics with a certain amount of different types of informal metals. From such interconnected metal elements that The temperature is high enough and is long enough to cause Dispersed together of the interconnected metal elements Together such and non-metallic in this way, at least that Most of the metal elements are connected to each other. Such will be Replaced by informal metal Therefore will cause an element That is an interconnected metal modified in a sera piece. And (c) the introduction of a seramic piece with a modified metal element. As mentioned within it comes out 2. Method under claim 1 where the origin metal is composed. With select metals from groups containing aluminum, silicon, tinidenium, tin, zirconium, and hafnium 3. Method according to claim 1, where the origin metal is composed. With aluminum and metal elements interconnected Consisting of aluminum 4. Method according to claim 1, where the informal metals are With at least one material selected from the group It consists of nickel, iron, silver, titenium, vanadium, gold, curry, uranium, cobalt, chromium, molybdenum, silicon, tungsten, germanium, tin, magnesium, zirconium, hafnium, niobium, manganese, platinum, palladium, gold. Zinc Aluminum, Lead and Alloy. And a combination of at least one such material. 5. Method of claim 3, where the informal metal is assembled. The metal can be selected from a group consisting of nickel, copper, iron and silver. 6. Method for one of the claims 1,2,3,4 or 5 where such informal metal will have In large quantities Than the amount of interconnected metal elements that 7. The method according to any of the claims 1,2,3,4 or 5, where the metallic element has been modified to be at least five times the volume prior to such exposure. Interconnect It is made up of between approximately 1 and approximately 40 per cent by volume of the previous seramic slice that was said to be. 8. Methods according to one of the claims 1,2,3,4 or 5, where such methods also contain movement. At least one of the aforementioned seramic chunks and informal metals. Such as while there is contact and spread to each other. 9. Method of claim 8 where the movement. It consists of 1 0. The method in accordance with one of the claims 1,2,3 or 4, where such temperature during the exposure process. It is at least one higher than the melting point of Metal outside such systems A connected metal element Between each other And some combination of informal metals and Metal elements are interconnected 1 1. Method according to one of the claims 1,2,3,4 or 5, where the strong seramid piece also contains a secondary substance. Receptors, which are infiltrated by the product of an oxidizing reaction that There are many crystals connected to each other. 1 2. Method for claim 11 will include additional steps. Of shaping the substrate until it becomes a material It is pre-formed before such infiltration. 1 3. In the method of producing strong serami by oxidizing. Stem metal, which includes the process of To heat the metal of the origin while it is released. Oxidized as a vapor in it to produce a source Of the molten metal and its reaction The molten and the aforementioned oxidizing agent occurs at temperature. This is done in order to produce the product of an oxidizing reaction, in which the product is in contact and in line between The molten metal source with the aforementioned oxidizing agent maintains the temperature so that The metal maintains its molten state and induces the molten metal to pass through. The product of the oxidizing reaction to the oxidizing agent until To produce the product of a continuous oxidizing reaction at The junction between the oxidizing agent and the product of the exit reaction. Oxidize that occurs before that and performs such a reaction. For a long time to produce such a seramic piece that It consists of the products of the aforementioned oxidizing reactions and Metal Connection between them, where at least this element At the very least, it will be partially interconnected, and at least will It is partially accessible from the surface of the seramic slice, at least. At the end, the improvement consists of 1 4. Methods according to claim 13, where the origin metal Contains select metals from the group consisting of aluminum, silicon, titenium, tin, zirconium and hafnium. 1 5. Method of claim 13, where the origin metal It consists of aluminum and connecting metal elements. Between them consists of aluminum 1 6. Method according to claim 13, where the informal metals are With at least one material selected from the group It consists of nickel, iron, silver, titenium, vanadium, copper, uranium, cobalt, chromium, molybdenum, silicon, tungsten, germanium, tin, magnesium, zirconium, hafnium, niobium, manganese, platinum, palladium, gold, zinc. Aluminum, lead and alloys Metal mixtures And a combination of at least one such material 1 7. Method of claim 15, where the informal metal is composed of With at least one type of metal selected from that group Contains nickel, copper, iron, silver and its alloys and mixtures. 1 8. Method of claim for any of Articles 13,14,15,16 or 17, where such informal metals would be present in any of the provisions of Articles 13,14,15,16 or 17. Quantity at least greater than the volume of the metallic element Five times the maximum by volume Prior to such contact 1 9. Method for one of the claims of Articles 13,14,15,16 or 17 where the weld metal element is These interconnects are made up of approximately 1 to approximately 40 percent by volume of the previous seramic slice that the staggered piece. The aramic will be exposed to the informal metal 2 0. Method according to one of the claims 13,14,15,16 or 17, where the method also includes: Movement, at least one of such seramic pieces And the informal metals while in the said exposure phase 2 1. Approach to claim 20, where the movement It consists of 2 supersonic oscillations. 2. Method for one of Clause 13,14,15,16 or 17, where such temperature during the phase Such exposure episodes are high during the exposure process. It is at least one higher than the melting point of Metal outside such systems A connected metal element Between them and some combinations of informal metals and Metal elements are connected to each other. 2. 3. Manufacturing method of composite seramic component consists of the process of placing the origin metal next to the supporting mass that allows the compound to penetrate. Passability and arrangement of the aforementioned metal and substrate They are related to each other so that the occurrence of the product The reaction to oxidize the origin metal with the oxidizing agent will occur. It rises and goes in a direction to and enters the mass of the substrate, heating the source metal to a high temperature. Than its melting point, but lower than the melting point of the product of Its oxidizing reaction to produce a source of Molten origin metals and their interactions It melts with the aforementioned oxidizing agent at that temperature. To achieve the product of such an oxidizing reaction And at such a temperature it maintains the condition of at least part One of the products of such an oxidizing reaction is exposed. And is the line between the molten metal source and the exit material. Such oxidized Induce the molten metal to move through the fruit. Production of the oxidizing reaction to the oxidizing agent and further Also and into the adjacent substrate mass so that the product The new oxidizing reaction will continue to occur in the mass of the substrate at the junction between the oxidizing agent and the product. Of the previous oxidizing reaction The reaction continued for a long time enough to be fully implanted. The least part of the substrate with the product of The reaction of such an oxidizing reaction will therefore occur. Is a composite seramic mixture containing a metallic element, in which this element is at least partially interconnected; and It is at least partially accessible from the outer surface of the staggered piece. Aromatic blends include at least one skin. Surface contact of such composite seramic pieces, at least where One such surface is with a different type of informal metal. Such origin Until there was a difference in concentration between Such non-metallic elements with such interconnected metal elements, such contact occurs with sufficient time. That will cause diffusion with each other between the informal metals. In this way, at least part of the elements that are Such interconnected metals in combined seramic pieces, as It will be replaced by the aforementioned non-metallic elements and the composite seramic pieces will be brought out. 2 4. The method of claim 23 also consists of: The mass of the substrate is formed in the preformed material. Before the infiltration 2 5. One of the claim methods of Article 23 or 24, where the origin metal consists of a selectable metal from the group. 2 6. Method for one of the claims of Article 23 or 24, where the origin metal contains aluminium. M and the interconnected metal elements consist of aluminum 2. 7. Method according to one of Clause 23 or 24, where the informal metal consists of at least a material type. Selectable from a group consisting of nickel, iron, silver, titenium, vanadium, copper, uranium, cobalt, chromium, molybdenum, silicon, tungsten, germanium, tin, magnesium, yit, zirconium, hafnium, niobium, manganese, platinum. Palladium, Gold, Zinc, Aluminum, Lead and Alloys Mixtures between 2 8. Method of claim 26, where the informal metal is composed of at least one such material. With at least one type of metal selected from that group Contains nickel, copper, iron, silver and its alloys and mixtures. 2 9. Any of the claims of Articles 23 and 24, where such informal metals are present in larger quantities. The volume of the metal element is at least five times by Volume prior to the exposure 3 0. One of the claim methods of Articles 23 and 24, where the metallic elements are interconnected as follows: These are made up of approximately 1 to approximately 40 percent by The volume of the mixed seramic slice before the mixed seramic slice. The aforementioned aggregate will be exposed to the informal metal 3. 1. Any of the claim methods of Articles 23 and 24, where such methods also consist of Least one of the mixed ceramic pieces, combining it and the outer metal. System while in the said touch stage 3 2. Method according to claim 31, where the movement is It consists of 3 supersonic waves. 3. Such method, in accordance with one of the claims of Articles 23 and 24, where the temperature during the exposure process It is at least one higher than the melting point of Metal outside such systems A connected metal element Between them and some combinations of informal metals and Metal elements are interconnected (33 claims, 7 faces, 4 figures).