SU324276A1 - METHOD OF HEATING METALS AND ALLOYSHETHYTTEHTHO-ib:) ^^ BIBLIO-1AL.J - Google Patents

Description

This invention relates to the field of heating metals and alloys under pressure heat treatment.

A known method of heating metals and alloys in lithium vapor and its compounds, in which vapors of lithium and its compounds are introduced into the furnace atmosphere, depending on the size of the charge.

The disadvantage of this method is that the amount of lithium and its compounds introduced into the furnace atmosphere is very high, which violates the thermodynamics of the combustion process, and the excess lithium accumulates on the metal surface and walls of the furnace, entering into interaction with the latter. The reaction products formed as a result of decomposition and evaporation of lithium compounds in the working space of the furnace in the immediate vicinity of the metal being heated are very aggressive at the time of their formation and after some time, that when heated, some metals and alloys cause new oxidation rather than protection. from oxidation.

In order to prevent oxidation and reduction of consumption of lithium and its compounds according to the proposed method, lithium lars and its compounds are introduced into the furnace atmosphere in a quantity dependent on the size of the surface of the heated metal, for example, when the metal is heated in a gas furnace.

1.0 g / m-, in the electric furnace - 0.3-0.6 g / m of the surface of the heated metal.

Metal1; lithium or any of its compounds, such as lithium carbonate, lithium chloride and others, or a mixture of these substances, is placed in a vessel located in the generator, gassed off with gas or fuel oil burned in a conventional burner or nozzle.

The hsperato temperature is 750-1000 ° C. To ensure a uniform evaporation rate, the mirror of the evaporated material placed in the metal or ceramic vessel should be constant, as well as the temperature of the generator. The rate of evaporation depends on the temperature of the generator and the area of evaporation and the larger, the larger the latter. The vapors or their compounds, evaporated from the vessel, are entrained by the products of combustion and carried away through a heat-resistant metal pipe inserted into the generator opening.

The combustion products, enriched with lit, are fed to a heating furnace, either to the inductor, or to the electric heating furnace, or to the furnace, which is ignited by gas or fuel oil.

If pairs of liters are supplied to the plasma chamber, they are supplied at the root of the plume, i.e., in the vacuum zone. In case of large burners or nozzles in a liquid tank, lithium vapor is fed from one generator to several or all of the burners, and the raviomerio is distributed throughout the entire furnace volume. The process of grinding is carried out in such a way that the products of grief, washing the metal, would have a composition corresponding to the combustion of fuel with an air flow rate of not more than 0.95.

This also applies to heating in the electrical system. The heated billets are located in a furnace away from the burners and are washed by the products of combustion, and not by a torch.

The proposed method makes it possible to reduce the consumption of expensive lithium or metallic lithium salts, improve the quality of the surface and adjacent layers of the heated metal, increase the service life of fireproof materials, and eliminate the secondary oxidation of nrn technological operations.

Subject invention

Claims (3)

1. A method of heating metals and alloys in lithium vapor and its compounds, characterized in that, in order to prevent oxidation and reduce the consumption of lithium and its compounds, they are introduced into the furnace atmosphere in an amount dependent on the surface size of the metal to be heated. 2. The method according to claim 1, characterized in that when heated in a fiery furnace lithium vapor and its compounds are administered in the amount of 0.5- 1.0 g1m of the surface of the heated metal. 3. The method according to claim 1, characterized in that when heated in electric furnaces, lithium vapors and its compounds are introduced in the amount of 0.3-0.6 g / l of the surface of the heated metal.