RU2372167C2 - Method of receiving of composite material on basis of titanium carbon-silicide - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention elates to powder metallurgy, particularly to receiving of high-temperature composite material on the basis of titanium carbon-silicide, titanium, silicon, carbon and hot compaction of mixture. Powder mixture, containing titanium, silicon, carbon or its compounds, are subject to mechanosynthesis in vacuum-degassed mill at rotational frequency of drum 260-330 rev/min. Hot compaction is implemented at temperature 1350-1450°C, compacting pressure 10-15 MPa, isolation 0.5-3 hours in vacuum or blanket of inert gas.

EFFECT: invention provides receiving of high-density composite material with high content of carbon-silicide.

2 cl

Description

The invention relates to the production of high-temperature composite materials operating in extreme temperatures, high loads and aggressive, toxic and radioactive environments, can find application in powder metallurgy, in the chemical, energy, oil and gas industry, in mechanical engineering.

It is known to obtain titanium carbosilicide by solid-phase synthesis under vacuum and with an excess of silicon component. At intermediate stages of the synthesis, excess elemental silicon is removed from the material by evaporation. (P.V. Istomin, A.V. Nadutkin, Yu.I. Ryabkov, B. A. Goldin “Production of Ti ₃ SiC ₂ ” Inorganic Materials. - Publishing House of Science, 2006, Volume 42, No. 3, p. 292 -297). The disadvantage is the difficulty of controlling the content of impurity phases due to the introduction of an excess of silicon component into the initial charge.

To obtain materials based on titanium carbosilicide, reaction hot pressing methods can be used (Barsoum MW, El-Raghy T. Synthesis and Characterization of a Remarkable Ceramic: Ti ₃ SiC ₂ // J. Am. Ceram. Soc. 1996. V.79 P.1953-1956). The disadvantage is the high energy consumption and the complexity of the technological equipment.

As the closest analogue to the claimed technical solution, the synthesis of 312 phases and composites based on them was selected according to US patent for invention No. 5942455, С01В 35/04, 1999. The process of obtaining the product involves the creation of a mixture of transition metal, which is used as titanium or titanium hydrite silicon compounds and carbon compounds. The second step in the process of obtaining a product based on titanium carbosilicide is the reaction hot pressing of this mixture, the maximum temperature of which is 1800 ° C, the maximum pressure is 200 MPa. The final product contains impurities of about 5%, has a density close to theoretical density. The disadvantage is the high energy consumption and the complexity of the technological equipment that provides these modes.

The technical result of the claimed technical solution is to reduce energy consumption, increase the manufacturability of the process upon receipt of a high-quality composite material with a high density and a high content of titanium carbosilicide.

The technical result is achieved in that in a method for producing a composite material based on titanium carbosilicide, comprising creating a powder mixture consisting of titanium, silicon, graphite or compounds containing them, and hot pressing the mixture according to the invention, the powder mixture is subjected to mechanosynthesis in a vacuum mill at the drum rotation frequency of 260-330 rpm, hot pressing is carried out at a temperature of 1350-1450 ° C, a pressing pressure of 10-15 MPa, an exposure time of 0.5-3 hours in vacuum or in an inert gas atmosphere. A planetary mill is used as an evacuated mill, mechanosynthesis is carried out at a mass ratio of the mixture and grinding balls of the mill at 1:30, while the drum rotates in intermittent mode.

The technical result is achieved by introducing into the method of producing a composite material based on titanium carbosilicide the treatment of the powder mixture by mechanosynthesis in a vacuum mill. The mechanosynthesis process includes homogenization, dry grinding and solid phase reactions. In the process of mechanosynthesis, from 15 to 30% of titanium carbosilicide is formed in the initial mixture. The formation of titanium carbosilicide at the stage of mechanosynthesis can significantly change the modes of hot solid-phase pressing and carry it out at a temperature of 1350-1450 ° C, pressing pressure of 10-15 MPa, holding for 0.5-3 hours in a vacuum or in an inert gas atmosphere, which reduces energy costs technological process and use standard technological equipment pressing.

Mechanosynthesis includes homogenization, dry grinding of the mixture, as well as solid-phase reactions between the components. In the process of mechanosynthesis, high energy is supplied to the powder particles. Solid particles absorb the mixture of mechanical activation energy. At high strain rates, the structure of solids changes, and diffusion processes accelerate during plastic deformation. Active surface centers are formed on a freshly formed surface, and pulses of high local pressures and temperatures arise. In locally limited areas, the temperature can reach high values, reaching the melting point of the low-melting component. Dry grinding without liquid agents, activators, dispersants, surfactants contributes to the "cold welding" of the formed particles, which consists in the fact that without heating from the outside, composite particles containing titanium carbosilicide appear. This is explained by the transition of the solid phase of the components of the mixture to a nonequilibrium state, characterized by a fine-grained structure of the powder particles, an increase in the solubility limits in the solid phase, the appearance of solubility in systems consisting of insolubility of the components, grinding elements of the structure of the particle material to nanometer sizes, the formation of new crystalline and amorphous phases, initiation of chemical reactions at lower temperatures. The formation of new phases occurs due to a high degree of micro distortion and a large number of lattice defects, which accelerates the diffusion of atoms of one element into the crystal lattice of another. To use active centers on a freshly formed surface to obtain composite particles in the process of "cold welding", mechanosynthesis is carried out in vacuum. As a result of mechanosynthesis, 15 to 30% of titanium carbosilicide is formed.

A method of obtaining a composite material based on titanium carbosilicide is as follows.

The initial mixture of powders of titanium, silicon carbide and graphite or their compounds in a molar ratio of 3: 1.25: 0.75 is placed in a cuvette of a planetary mill together with grinding balls in a ratio of 1:30, vacuum to a residual pressure of less than 1 Pa. For mechanosynthesis, the Sand planetary mill is used. Mechanosynthesis is carried out at a rotational speed of the mill drum 320 rpm in intermittent mode. The indicated parameters provide the supply to the particles of energy necessary to activate the processes of formation of new phases. When the rotational speed of the mill drum is less than 260 rpm, the formation of carbosilicide does not occur, because the energy of grinding media is not enough to activate the energy of synthesis. At a drum rotation frequency of more than 330 rpm, the mixture is heated intensely and it sticks to the walls of the mill cell, which impedes the process of mechanosynthesis. At the optimal rotational speed of the mill drum 320 rpm, the optimal mechanosynthesis time is 20-30 minutes, cooling - for 1 hour. Then, the resulting composition is hot pressed in a graphite mold at a temperature of 1400 ° C, a pressure of 10 MPa and an isothermal exposure of 1 hour. A load is applied immediately before the start of heating, heating is carried out at a speed of 7 deg / min. It has been experimentally established that in this method of producing a composite material based on titanium carbosilicide, with an increase in the temperature of hot pressing, a decrease in the content of titanium carbosilicide occurs, which can be explained by the activation of liquid-phase sintering due to the melting of free silicon. The cooling of the material takes place together with the installation of hot pressing. After cooling, the sample is removed from the graphite mold.

In this way, a material is obtained with a density of 4.47 g / cm ³ (porosity of about 2%), which contains 90% titanium carbosilicide and 10% titanium carbide.

Thus, the claimed invention allows to obtain a composite material with a high content of titanium carbosilicide and high density while reducing energy consumption and increasing the processability.

Claims (2)

1. A method of obtaining a composite material based on titanium carbosilicide, comprising obtaining a powder mixture consisting of titanium, silicon, carbon or compounds containing them, and hot pressing the mixture, characterized in that the powder mixture is subjected to mechanosynthesis in a vacuum mill at a drum speed of 260 -330 rpm, and hot pressing is carried out at a temperature of 1350-1450 ° C, a pressing pressure of 10-15 MPa and an exposure of 0.5-3 hours in a vacuum or inert gas atmosphere. 2. The method according to claim 1, characterized in that a planetary mill is used as an evacuated mill, mechanosynthesis is carried out at a mass ratio of the mixture and grinding balls of the mill at 1:30, at a drum rotation frequency of 320 rpm, in intermittent mode.