RU2112629C1 - Process of production of aluminium powder - Google Patents

Abstract

FIELD: production of metal powders. SUBSTANCE: sealed chamber is pumped out in advance and filled with nitrogen. Then aluminium wire is fed without interruption into gap between electrodes and pulse of electric current is passed through it. Explosion is carried out in atmosphere of nitrogen under pressure 13.3<P<10⁴ Pa. EFFECT: increased efficiency of process, enhanced area of specific surface of powder. 1 tbl

Description

 The invention relates to the field of production of aluminum powder, which can be used in the manufacture of catalysts, adsorbents, ceramic materials and composite alloys.

A known method of producing aluminum powder by electric explosion of aluminum wire in a nitrogen atmosphere [1] at a pressure of 1.3 • 10 ⁵ PA.

 In the known method, a chemical reaction occurs and a powder is formed containing 17.5% aluminum nitride, which is a significant drawback.

 There is also a method of producing aluminum powder by electric explosion of aluminum wire in an argon atmosphere [2]. The explosion occurs while an inert gas atmosphere (in argon) and chemical compounds are not formed.

 The disadvantages of this method include the following.

 1. Argon has a low dielectric strength, five times less than, for example, air or nitrogen. To exclude the passage of electric current in an argon atmosphere, so that the current flows through the wire and leads to its explosion, it is necessary to maintain a high gas pressure in the explosion chamber. As a result, the consumption of expensive gas increases, shock loads and requirements to the mechanical strength of the explosion chamber increase.

 2. The increased pressure of the inert gas and its high specific gravity provide conditions for the formation of larger powder particles with lower specific strength.

 The objective of the invention is to increase the specific surface of aluminum powder and its activity, as well as increasing the efficiency of the method.

This goal is achieved in that an electric explosion of aluminum wire is carried out in a nitrogen atmosphere at a pressure of 13.3 <P <5 • 10 ⁴ Pa.

 The proposed method is as follows.

 The pressurized explosion chamber is pre-evacuated and filled with nitrogen. Then, the aluminum wire is continuously fed into the gap between the electrodes and an electric current pulse is passed through it. After the required number of explosions, analyzes of the collected powder are carried out: the composition is determined by X-ray diffraction analysis and analytical chemistry methods, the specific surface area is determined by low-temperature adsorption and electron microscopy.

The table shows the values of the specific surface area of the samples of aluminum powder (S, m ² / g), the composition and conditions for their production: gas, gas pressure (P, Pa), energy w introduced into the aluminum wire, referred to the sublimation energy of aluminum w _s ( w / w _s ).

The table shows that the production of aluminum powder by the proposed method significantly increases the specific surface area. The increase in pressure in the explosion chamber to values exceeding 5 • 10 ⁴ Pa is impractical because the pure aluminum content of the powder is reduced. At a pressure in the explosion chamber of 13.3 Pa or less, wire explosion does not occur, because electric current flows through the gas surrounding the wire.

The proposed method is more economical not only due to the use of cheaper gas and low pressure in the explosion chamber. As can be seen from the table, the specific surface area increases with the increase of the energy w / w _s introduced into the wire. Obtaining aluminum powder by the proposed method does not require high energy consumption.

 Thus, the proposed method is economical and can significantly increase the specific surface area of aluminum powder.

Sources of information taken into account when preparing the application
1. MJ Joncich, JW Vaughn, and BF Knutsen. Preparation of metal nitrides by the exploding wire technique. Canadian Journ of Chemistry, vol. 44, 1966, No. 2, pp. 137-142.

 2. Yu. A. Kotov, N.A. Yavorovsky. The study of particles formed by an electric explosion of conductors. - Physics and chemistry of material processing, 1978, N 4, p. 24-29.

Claims (1)

A method of producing aluminum powder by electric explosion of aluminum wire in a gas atmosphere, characterized in that the explosion is carried out in a nitrogen atmosphere at a pressure of 13.3 <P <5 • 10 ⁴ Pa.

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