TH3709B - A method for bonding the surfaces of ceramic objects. - Google Patents

Abstract

Two or more ceramic objects Are bonded together by oxidizing the molten metal coming from the parent metal with a vapor oxidant. To form a weld fastener that is a product obtained from oxidation reactions The resulting oxidation products are formed between appropriate surfaces. And facing close together of such ceramic objects And will hold the said surfaces together Add-on catalysts may also be used to help the oxidation-based product count.

Claims (6)

1. Method of bonding ceramic objects together along the appropriate surface. Which consists of: (a) First and second alignment of ceramic objects gives Close to each other Where the surface of the first ceramic object Facing the surface of the second veramic, creating a bond between the surface; (b) the orientation of the parent metal relative to the area to be Such welding clamp So that the products obtained from the reaction The oxidation produced by the said impulse as in step (c) below will be formed in the area to be bonded (c) heating the assembly held of the object. The vermic and the parent metal In the presence of oxidants that In a vapor state to have a temperature higher than the melting point Of the parent metal And below the melting point of the product that Obtained from the said oxidation reaction to make the parent metal Said to be the parent metal to the liquid tube; And (d) in this temperature range (i) induces an oxidation reaction in this vapor state. Said to the molten parent metal To produce (Ii) maintains at least part of the product obtained from such oxidation. Such oxidation reaction Keep in touch with and in between The molten parent metal is molten and oxidants so that the molten parent metal falls away from it through the product. Obtained from the oxidation reaction And go into the area to be seized And (iii) the occurrence of such a prolonged reaction. Sufficient to connect the area to be bonded with Products obtained from the aforementioned oxidation, in which the surfaces are joined together. 2. Method of claim 1, where the ceramic material is These include materials chosen from among ceramics, oxides, borides, carbides, and nitrides and oxidants. In such a vapor state Is a gas containing oxygen 3. Method according to claim 2, where the ceramic object is Clause 1, 2 or 3, any one of which is oxidized in such condition is air 5. Method of claim item 1 , Either 2 or 3 Including the alignment of the parent metal by placing it at the border of the area to be welded to it. 6. Method according to claims 1, 2 or 3, either. That includes aligning such ceramic objects with a surface Such a slant at a small angle to each other. 7. Method of claims 1, 2 or 3, any one. That includes the alignment of the parent metal, provided that it is held to hold the weld. 8. Method according to Clause 7, where the parent metal is Is articulated between the surface of the ceramic object that The first and the second thereof. 9. Method for claim 1 that includes the promotion of Such oxidation reaction By using auxiliary materials In conjunction with the aforementioned metal 1 0. Method according to claim 9, where the parent metal is the parent metal, aluminum 1 1. Method according to Clause 10, where the accelerated material They were chosen more than one of those that consisted of one. Of magnesium, zinc, silicon, germanium, tin, lead, boron, sodium, lithium, calcium, phosphorus, ueat and rare class metal oxides 1 2. Method according to Clause 1, 2 or 3, any one Where one or both of the first and second ceramic objects form a ceramic component containing a filler. To fill them with ceramics that are embedded with a ceramic matrix 1 3. Any of the Clause 1,2,3 or 10 method where the temperature level is approximately 800 C to 1450 c 1. 4. Method according to claim 1, where the mother metal Was selected from a group containing aluminum, titanium, tin, serchrome, hafnium and silicon. 5. Method according to Clause 1, where the product is From the said oxidation reaction Contains oxides, nitrides or carbides 1 6. Method according to Clause 1, where the product obtained The oxidation reaction contains aluminum oxide, aluminum nitride, tin oxide, silicon carbide, titanium nitride, zirconium nitride or hafnium nitride (clause Holds 16 rights, 3 pages, 6 pictures)