TH57352B - Process for producing high-resolution powder metallurgy - Google Patents

Abstract

DC60 (07/08/56) Process for producing high-resolution powder metallurgy. Which can use raw materials that have been used Work spread throughout a wide range And control the grain size of the metal powder which is independently produced with low cost and high safety. The process for the production of metal powders It consists of the use of burners and furnaces. Which can create a reducing atmosphere that has The temperature can rise And an apparatus for gas separation which is produced in the furnace from the powder for the Restore the powder The burner will have the function of blowing powder metal compound as raw material. Into the flame in high temperature reducing The raw material powder will be heated efficiently. In the air, the flame flows in the high temperature reduction. Therefore it is reduced as quickly as High-precision powder At this time, the granular size of the high-precision powder is also controlled. Adjusting the ratio of oxygen (that is, the ratio of the amount of the combustion auxiliary gas supplied to The burner is required for the full combustion gas content of the fuel), the process for the production of fine powder metal Which can use raw materials Which has been widely used throughout a wide range And control the grain size of the metal powder That has been produced independently It is low-cost and highly safe. The process for producing metallic relatively fine powders consists of a batch and a furnace. Which can produce a higher temperature reducing atmosphere And tools for gas separation Which was created in the kiln from the powder to restore the powder The burnt set will have the function of blowing. Powder metallurgical compound which is the raw material in the flame in high temperature reducing. Raw material powders are inefficiently heated in the flue air in the reducing flame. High temperature Therefore, it is rapidly reduced to a metallic relatively fine powder. At this time, the granular size of the metallic relatively fine powder is controlled with an adjustment. The ratio of oxygen (which is the ratio of the amount of the combustion auxiliary gas supplied to the The combustion unit to the amount of the combustion aid gas required for the complete combustion of the fuel)

Claims (7)

1.Process for the production of metallic relatively fine powders that include Injecting powdered metallic compounds into the air flows in the high temperature reducing process which has been formed. In a furnace with a firing unit, for heating and in reducing the metal compound. Therefore, it is formed into a fairly fine powder, a spherical metal with a grain size. 2. The process for producing metallic relatively fine powders, as discussed in Claim No. 1, which will make the granular size of such a relatively fine metal powder smaller. They are smaller than the grain size of such metallic compounds. 3. The process for producing a fairly fine metal powder, as discussed in Claim No. 1, which will make the granular size of such a relatively fine metal powder smaller. It does not grow more than 1/10 the pellet size of such metallic compounds. 4. The process for producing metallic relatively fine powders, as discussed in Claim No. 1, where the grain size of a relatively fine round metal powder is The sintering unit was controlled by adjusting the oxygen ratio of the sintering unit. 5. The process for the production of metallic relatively fine powders, as discussed in Clause 1, where the high temperature reducing air flows, is created by the use of Hydrocarbon fuels in gas or liquid form with oxygen or Thick oxygenated air 6. The process for producing metallic relatively fine powders, as discussed in Clause 1 to 5, any one Where the metallic compound is something else. Other than chloride. 7. The process for producing metallic relatively fine powders as described in Clause 1 to 5, any one Where the grain size of such a fairly fine metal powder The temperature is controlled in such a furnace. 8. The process for producing a relatively fine powder of metal consists of Atomization of a solution of a compound containing metallic elements of the raw material and The solution enters the furnace where the air flows in the high temperature reducing process. Fuel which is partially distributed from the burner To heat, decompose and reduce the metal compounds. Therefore, it is formed into a relatively fine powder. A spherical metal with a controlled grain size. 9. The process for producing a fairly fine metal powder, as discussed in Clause 1, where the solution is also atomized and dispensed from 1 0. The process for producing metallic relatively fine powders, as discussed in Clause 6, where the aqueous solution is an organic solvent And the aforementioned solution It has been atomized as fuel for the aforementioned partially burnt-out set. Therefore, it is the formation of air flowing in reducing the high temperature to form a A spherical type of fairly fine powder. 1. A type of powder that is a fairly fine metal that is produced through a process for manufacturing. The metal relatively fine effect referred to in Claims 1 to 5 and Clause 8 to 10, Clause 1. 2. The combustion unit which produces air flows in high temperature reducing from the fuel fluid and Oxygen or air with thick oxygen to reduce metal compounds. Therefore it is the production A relatively fine metal fruit with a grain size smaller than the grain size of the raw material. This includes: A raw material injection hole for injecting a metallic compound that is a raw material in a direction. Which has a fluid that is fuel as a lead gas Small holes in primary oxygen injection arranged in a circular shape around the center. Of holes in the injection of such raw materials For injecting oxygen or air with thick oxygen in nature Parallel to the aforementioned direction of injection of the said raw material and a small number of secondary oxygen injection holes arranged in a circular shape around the center. Of the holes in the material injection, and in the outward manner, in the primary oxygen injection, for injecting oxygen or thick oxygen-rich air toward a point on the line extending from Hole in the injection of such raw materials and parallel to the said direction of injection of such raw materials 1 3. Burning set referred to in Clause 12, which further includes the injection hole. Fuel for separate fuel supply In cases where such a carrier gas is oxygen air, thick oxygenated air Or inert gas 1 4.The sintering unit which produces air to flow in high temperature reducing from organic solvents and Oxygen or air with thick oxygen to reduce metal compounds. So it is production A fairly fine metal powder. This includes: A hole in the atomization of raw materials for the atomization of liquid raw materials containing compounds. Is a metal which dissolves in organic solvents as aerosols. Small holes in primary oxygen injection arranged in a circular shape around the center. Of the holes in the atomization of the raw materials For injecting oxygen or oxygen with thick air Parallel to the centerline of the aforementioned atomization holes and a number of secondary oxygen infusion holes arranged in a circular shape around the center. Of the holes in the atomization of raw materials and in the outward manner from the injection holes Such primary oxygen For injecting oxygen or thick oxygen air into a point on the line. Which extends from the hole in the atomization of the raw material and parallel to the said center line of Holes in the atomization of raw materials 1 5.Combustion unit, which produces air flowing in high temperature reducing from fuel and oxygen, or The air contains thick oxygen to reduce metal compounds. Therefore, it is quite a kind of powder production. Metal This includes: A hole in the atomization of raw materials for the atomization of liquid fuels containing compounds. A metal atomization Several small fuel injection holes arranged in a circular motion around the center of the The holes in the atomization of the raw material are mentioned. For such fuel injection in parallel with The center line of the atomization holes and a number of primary oxygen injection holes arranged in a circular shape around the center. Of the holes in the atomization of raw materials and in the outward manner from the injection holes Such fuel For injecting oxygen or oxygen-thick air in parallel with The center line of the aforementioned atomization holes and a number of secondary oxygen injections are arranged in a circular shape around the center. Of the holes in the atomization of raw materials and in the outward manner from the injection holes Such primary oxygen For injecting oxygen or thick oxygen air into a point on the line. Which extends from the hole in the atomization of the raw material and parallel to the said center line of Holes in the atomization of raw materials 1 6. Apparatus for the production of metallic relatively fine powders, which include: furnace section for the heat treatment of raw materials in the atmosphere. Oxidation - reduction Burning set, as mentioned in Clause 12 to 15, any one Which is provided in the furnace for fuel injection. Oxygen or thick oxygenated air With the ingredients approached As for the furnace. Fuel supply system for supplying fuel to the said combustion unit Raw material supply system for supplying raw materials to the furnace and cooling gas supply system for supplying cooling gas to the aforementioned furnace section 1 7. Apparatus for producing metallic relatively fine powders as described in Clause 16, where the aforementioned cooling gas distribution system is also included. Gas dispensing tools for temperature control