TH4941B - Method for constructing a matrix of metal bodies By the method of natural seepage - Google Patents

Abstract

This invention involves the creation of the constituent objects of the metal matrix by natural infiltration. In particular, the infiltration reinforcer and/or the main infiltration reinforcement can be located at least partially between or at the joint surface between the metal matrix and the material and the filler material. to be full (or preformed) to be impregnated with a molten metal matrix. Moreover at least At some point during the process, the atmospheric conditions of the seepage Inserts may be connected to filler material or pre-formed and/or metal matrix.

Claims (8)

1. Methods of fabricating a metal matrix containing: - Provision of permeable sources of pollutants. Containing Non-reactive filler material And the pre-formed form; - Arrangement of metal matrix sources; - Feeding or dispensing materials Containing The main auxiliary agent of the least infiltration. The part of the functional surface between the matrix metal source and the permeable mass; And - natural infiltration At least part of the molten matrix metal filler 2. The method specified in claim 1, which follows the process of providing an atmosphere of the weld seepage atmosphere. Contact with The least Fillers and one of the matrix metals for The least Part of the seepage range 3. Methods outlined in claim 2, where the seepage enhancer is produced by reacting the main seepage enhancer. And which one is the least selected from the group which is composed Atmospheric conditions of permeation, permeable mass additional materials, and matrix metals 4. Methods outlined in claim 2, where matrix metal Aluminum The main seepage enhancer consists of magnesium and the seepage atmosphere contains nitrogen. 5. Methods outlined in Clause 2, where the matrix metal contains aluminum, the main auxiliary agent of The permeation contains zinc and the atmospheric conditions of seepage contain oxygen. 6. The methods identified in claim 2, which, apart from the main auxiliary agents and at the face of the face, are ineffective. At least one of the main seepage enhancers. And insertion enhancers are supplied in the metal matrix, permeable material mass. And atmospheric conditions of seepage. 7. Methods identified in claim 2, where the seepage atmosphere consists of Very selective atmospheric conditions from the oxygen and nitrogen group 8. Methods outlined in claim 2, where matrix metals It consists of the main seepage enhancer consisting of strondium and the infiltration atmosphere contains nitrogen 9. Methods outlined in claim 2, where the matrix metal Contains aluminum, which promotes primary absorption of calcium and atmospheric conditions. The method specified in claim 1, where during the infiltration, the main auxiliary auxiliaries are evaporated. 1 1. Methods specified in Clause 1. Clause 10, where the primary evaporative seepage enhancer reacts To form a product of reaction At a minimum, part of the permeable mass 1 2. The methods specified in Clause 12, whereby the products of the reaction are It can be reduced, at a minimum, to a certain extent with molten matrix metal. 1 3. The method specified in Clause 12, whereby the reaction product is coated, is a part of the metal. The minimum permeable mass 1 4. Methods identified in Clause 11, where the reaction products contain magnesium nitrides. Listed in claim 1, where water permeability Contain at least One of the materials chosen is from the group that consists of at least A large selection of materials consists of dust, flakes, sheets, circular plates, compressed sheets, tubing and heat-resistant fabrics. 1 6. Methods outlined in Clause 1, where permeable masses are Limited solubility in molten matrix metals 1 7. Methods outlined in Clause 1, where permeable masses. Contains at least one ceramic material. 1. 8. Methods identified in Clause 1, where, other than any one of, is at least one of the main seepage enhancers. At the common surface, the main seepage enhancer is contained in the alloy in the matrix metal 1 9. Methods outlined in claim 1, where the matrix metal Encrusted with aluminum And at the very least, one of the selected alloy elements from the group consisting of Silicon, iron, copper, manganis, chromium, zinc, calcium, magnesium and strontium 2 0. Methods stated in claim 1 where, besides the main auxiliary auxiliaries, Inserted at the face of the joint The least One main seepage enhancer and both permeability enhancers. 1. The method specified in claim 1, where the temperature in the natural seepage range is higher than the melting point of the matrix metal. But lower than the evaporation temperature of the matrix metal and the melting point of the permeable mass 2. 2. Methods outlined in claim 1, where the main seepage enhancer consists of materials selected from the groups containing magnesium, strontium and calcium 2. 3. The method stated in claim 1, where the matrix metal Aluminum And the permeable mass consists of The selected materials are from the group that includes Oxides, carbides, borides and nitrides 2 4. The method specified in claim 1, where the main seepage enhancer is applied in a rough manner, for example, as a solid material at the surface area between the matrix metal source and the mass at Permeable 2 5. The method specified in claim 1, where the aforementioned matrix metal source is a solid lump of a matrix metal. And the main seepage enhancer is used in the case of slerry to At least part of the matrix metal or the permeable mass 2 6. The method specified in claim 1, where the filler complements the Consisting of a pre-formed model And the main seepage enhancer is used in the form of a slurry, at least. Part of the pre-formed design Or at least part of the matrix metal. 2. 7. Method for constructing matrix metal components. Containing - creation of a permeable mass Containing The filler is not fully reactive. - contact of the lump of the matrix metal with the permeable mass Until all over the surface That is between the matrix metals And the mass of permeable material Containing Main auxiliary agent of seepage - Provide at least Part of the surface that is between Matrix metal And permeable mass material sandwiched by the main seepage booster; - heating of metal matrix To make it smelt; And - natural seepage The least Part of the permeable mass 2 8. One of the methods of claim 1 or 27, which follows the procedure for determining the area of the surface of the permeable mass with a barrier. diagonal Where the tab matrix metal will penetrate naturally first to the barrier 2 9. Methods outlined in Clause 28, where the barrier is It consists of coatings from the carbon, graphite and titanium diboride group 3 0. The methods specified in Clause 28, where such barriers are 3 1. Methods outlined in Clause 28, where such barriers consist of at least one material which will cause the welds to be in contact between conditions. Atmosphere of seepage And at the very least One of a matrix metal, permeable mass And the main auxiliary auxiliaries of seepage. 3. 2. Method for creating a metal matrix composition. Containing - creation of a permeable mass Containing at least one of the materials Selected from a group containing fillers And the form that has formed before - contact of permeable mass with aluminum matrix metal - Arrangement of materials Containing Magnesium source At least part of the functional surface is between the aluminum matrix metal and the permeable mass. - Heating of aluminum matrix metals To make it smelt; and - permeable mass spontaneously infiltrated with molten aluminum matrix metal 3. 3. Methods specified in Clause 32, which further consists of, at a minimum, of contact. One of the aluminum metal and its permeable mass with nitrogen atmosphere 3 4. Methods outlined in Clause 33. During infiltration, manesium evaporates. And react with atmospheric nitrogen To generate magnesium nitrite 3 5.The method specified in Clause 34, whereby Nitrite of Manesium will be coated with The least Part of the permeable mass 3 6.Methods outlined in claim 35, where at least part of the magnesium nitrite is reduced by molten matrix metal 3. 7.Methods outlined in claim 33, where the ionosphere is maintained forever during natural infiltration 3. 8.Methods outlined in Clause 32, which comprise the procedure for determining the boundaries of the surface of the passable mass with a barrier. Where the matrix metal will naturally penetrate to the barrier