TH5727B - Methods for constructing metal matrix component objects with permeable, changeable fillers, and products obtained from such methods. - Google Patents

Abstract

This invention involves a new method for creating metal matrix composites. and new products derived from such methods in particular Permeable mass of filler material or preformed form shall include at least some of the metal matrix powders. Moreover The relationship between infiltration aids and/or the main auxiliaries of infiltration and/or atmospheric conditions of infiltration with filler material or preformed at at least some point during the process which would allow the metal matrix to molten that penetrates naturally into the filler material or pre-formed The presence of the powder matrix metal in the preformed form or filler material reduces the volumetric ratio of the filler material to the matrix metal.

Claims (7)

1.How to make matrix metal components Containing: - Mixing of powdered matrix metals At least one of the main seepage enhancers. And the filler is fully non-reactive to form a permeable mass; And - natural infiltration The least Part of the molten matrix metal permeable mass 2. The method according to claim 1 also consists of the process of arranging the atmosphere of seepage to be linked to At least one of the permeable mass And molten matrix metal for at least one of the permeability periods. 3. Method according to claim 2, where the matrix metal contains aluminum, the main seepage enhancer contains magnesium and the infiltration atmosphere contains nitrogen. Clause 2 where the matrix metal contains aluminum, the main seepage enhancer contains zinc and the infiltration atmosphere contains oxygen 5. Methods according to claim 2 where the seepage atmosphere consists of Atmospheric conditions selected from oxygen and nitrogen groups. 6. Methods of claim 2 also consist of at least one dosing stage of the main auxiliary agent of increased infiltration. And an aid to enhance the seepage At least one of the molten matrix metal, the powdered matrix metal. And atmospheric conditions of seepage 7.Methods of claim 6, where at least one of the main seepage enhancers And the main auxiliary agent of increased seepage And the seepage enhancer is supplied from an external source. 8. Method according to claim 6, where the seepage enhancer It is produced by reacting the main adjuvant of seepage. And at least one of the groups selected from the group consisting of Atmospheric conditions of infiltration, additional materials, fillers. And molten matrix metal 9. Methods according to claim 6, where at least one of the main auxiliary agents of increased seepage And an aid to enhance the seepage Is arranged in more than one molten matrix metal, a powdered matrix metal 1 0. Method according to claim 6, where the matrix metal consists of aluminum, the main seepage enhancer consists of strondium and the atmosphere of the infiltration. Contains Nitrogen 1. 1. Method according to claim 6, where the matrix metal contains aluminum, the main seepage enhancer contains calcium, and the infiltration atmosphere contains nitrogen 1. 2. Method according to the proposition. Article 1 also contains at least one dispensing process of the main seepage enhancer and seepage enhancer. To at least one of the molten metal And powdered matrix metal 1 3. Method of claim 12, where at least one of the seepage enhancers And the main auxiliary agent of increased seepage Will be held at the boundary between the fillers. And the molten matrix metal 1 4. The method of claim 1 also includes The process of contact with at least part of the permeable mass. And at least one of the seepage enhancer during at least one of the infiltration interval 1 5. Method according to claim 1, where, during the infiltration phase Main auxiliary agent of seepage It is vaporized 1 6. Preparation method according to claim 15, where the main auxiliary agent of vapor permeation will react. To form a product of the reaction in At least part of the filler 1. 7. Method according to claim 15, where at least part of the reaction products are reduced by molten matrix metal. Holds the right to Article 17, where the products of such reaction will be coated At least part of the filler to be filled 1. 9. Method according to claim 1, where the permeable mass consists of a pre-formed form 2 0. Clause 19 method, where The pre-formed metal is formed by bonding the powdered matrix metal. And fillers to fill By using a binder selected from a group containing wax, glue and water 2 1. Method of claim 19 where the pre-formed form is formed by casting in the mold 2 2. Method According to claim 19, where the pre-formed form is made by distributed casting 2 3. Method of claim 19, where the pre-formed form, supported by itself, is made. It was formed by dry compression. 2. 4. Method of claim No. 1 also consisted of The procedure for determining the filler surface boundary is filled with a barrier. Where the matrix metal naturally penetrates the barrier 2 5. Method of claim 24, where the barrier It will contain materials selected from the group. Containing carbon, graphite and titanium diboride 2. 6. Method of claim 24 where the barrier is It will not be wet by the matrix metal. 2 7. Method of claim 24, where the barrier is Contains at least one material which permits interconnection between the permeability atmosphere and at least one of the molten matrix metal, the filler, the powdered matrix metal, the auxiliary agent. Enhance seepage And the main auxiliary agent of seepage. 2. 8. Method according to claim 1, where the filler consists of At least one material selected from the group is powder, flake, flake, small sphere, tapered line, ball. Spheres, fibers, particles, weave, cut fibers, spheres, tubes and heat-resistant fabrics 2 9. Method according to claim 1, where the filler can be finite dissolving in metal meth. Molten rix 3 0. Method for claim 1 where the filler consists of at least one ceramic material 3 1. Method according to claim 1 that reaches the main auxiliary agent of Increased permeability The molten metal is made into an alloy in the molten matrix metal. 3. 2. Method according to claim 1, where such a molten matrix metal contains aluminum and at least one of the alloyed substances. Selected from a group that contains Silicon, Iron, Copper, Manganese, Chromium, Zinc, Calcium Magnesium, and Strontium 3 3. Methods of claim 1, where seepage enhancers are supplied in both form metals. Powdered matrix 3 4. Method according to claim 1, where the temperature during the natural infiltration Is higher than the melting point of the molten metal And powdered matrix metals But lower than the temperature at which the molten matrix metal and the powdered matrix metal are vaporized. And the melting point of the filler 3. 5. Method to claim No. 1, where the molten matrix metal consists of aluminum, and the filler consists of material selected from the group containing oxides, carbides, borai. Nitrides and Nitrides 3 6. Method for claim 1, where the powdered matrix metal It consists of at least one material selected from the group that contains Powder, flake, taper and filament 3 7. Method according to claim 1, where powder matrix metal And fillers to fill 3 8. Method of claim 37 where the permeable mass is composed of a powdered matrix metal from approximately 1 to 75. Percent by volume 3 9. Clause 37 method, where the permeable mass is composed of a powdered matrix metal from approximately 25 to 75 percent by volume 4 0. Clause 1. Where the ratio of the powdered matrix metal to the filler changes to the amount of permeable mass. As a result, the matrix component of the metal has 4 different particle states. 1. Method for constructing the body of a matrix metal component. Containing: - matrix metal alloy And at the very least One of the main auxiliary agents of seepage With at least One of the materials selected from the group containing the filler is fully non-reactive. And the pre-formed model that does not react To form a permeable mass; - contact of permeable mass with alloy sources in molten metal matrix; - Bonding of atmospheric conditions of permeation with permeable mass; - Natural infiltration The least Part of the permeable mass with a molten matrix metal; And - the cooling of the metal matrix within the permeable mass. By constructing the body of the matrix metal component 4 2.How to make matrix metal components Containing: - mixing of metal matrix with fillers And at least one of the main auxiliary agents of seepage To form a permeable mass; And - permeable mass naturally infiltrated with molten matrix metal, aluminum. By making the metal matrix component 4 3. Method according to Clause 42 or 6, any one Where the main seepage enhancer consists of materials selected from the group containing Magnesium, Strontium and Calcium 4 4. Either method of claim 1,42,6 or 12, where a powdered matrix metal is classified as a coating on a filler to fill 4. 5. Method according to Clause 1,42,6 or any of the 12 where a powdered matrix metal And molten matrix metal It is made up of 4 different metals. 6.Method according to claim 45, where a metal differs from at least one of the desired adhesion between the desired metal and the desired alloy component 4. 7. Methods according to Clause 1,42,6 or 12, wherein powdered matrix metal and molten matrix metal Will be made up of the same metal