UA132610U - A METHOD FOR THE PROCESSING OF SOLID-ALLOY WASTES BASED ON Tungsten Carbide - Google Patents

Abstract

A method of processing carbide waste on the basis of tungsten carbide involves the purification of waste on the basis of tungsten carbide from pollution, drying, classification of fractions of the required size, oxidation of carbide waste on the basis of tungsten carbide in tunnel or in rotisserie furnaces. Waste based on tungsten carbide is oxidized in tunnel or rotary kilns, and waste over 50 mm is oxidized only in tunnel kilns, oxidation is carried out at a temperature of 950-1150 ° C with simultaneous sorption of waste gases in scrubbers with calcium hydroxide solution obtained the finished product - tungsten oxide - is separated from the slag and imperfections by sieving. The incomplete tungsten carbide is then fed for re-firing.

Description

The useful model belongs to the field of non-ferrous metallurgy and can be used in the production of refractory rare metals and alloys.

There is a known method of processing hard alloy waste based on tungsten carbide

IDeclaratory patent for a utility model 20016A Ukraine, IPC СО1с 41/00, С228 7/00. The method of processing hard alloy waste based on tungsten carbide./Zarubytskyi O.G., Dmytruk

B.F., Zakarchevskyi D.I. (USA); applicant and patent owner O.G. Zarubytskyi, B.F. Dmytruk,

Zakarchevskyi D.I. - Mo. 94128318; statement 30.12.1994; published 25.12.1997, Bull. Мо 6, 1997 - With si, which includes the preparation of a melt based on sodium hydroxide, heating it to a temperature of 500-700 "C, introducing the specified waste into the melt and portionwise introduction of an oxidant into the melt - sodium nitrite.

However, this method involves formation, which is accompanied by the release of a significant amount of nitrogen and oxygen, which are oxidized to MOX.

A known method of processing hard alloy waste based on tungsten compounds, in particular tungsten carbide (Utility model patent 35144 Ukraine, IPC C228 34/00. C228 7/00.

The process of processing scrap tungsten-containing alloys/ Malyshev V.V. (OA); applicant and patent owner Malyshev V.V. - MO and 200702950; statement 20.03.2007; published 10.09.2008, Bull. Mo 17. - With c)|, which includes grinding, oxidation of waste in resistance electric furnaces in an air flow at a temperature of 800-1000 "С with the addition of water vapor and acid cleaning of the obtained oxide.

However, the method of obtaining tungsten oxide is energy-intensive due to the application of the operation of grinding waste, which is an extremely hard material (Brinell hardness from 4413 to 5884 MPa). This method involves the introduction of water vapor into the resistance electric furnace.

In addition, the water vapor introduced into the reaction zone reduces the oxygen partial pressure and causes the oxide film to seal. This increases the diffusion resistance of the oxide layer and slows down the oxidation reaction of tungsten waste. At the stage of acid purification of the obtained tungsten oxide, toxic by-products containing mineral acids and heavy metals are formed.

The basis of a useful model is the task of obtaining tungsten oxide by oxidation of tungsten carbide-based hard alloy waste.

З The task is solved by the fact that the method of processing tungsten carbide-based hard alloy waste consists in cleaning tungsten carbide-based waste from impurities, drying, classifying fractions of the required size, oxidizing tungsten carbide-based hard alloy waste to tungsten oxide in tunnel or rotary furnaces, chemisorption of the by-product - carbon dioxide, which, according to the useful model, differs in that tungsten carbide-based waste is oxidized in tunnel or rotary furnaces, and waste larger than 50 mm is oxidized only in tunnel furnaces, oxidation is carried out at a temperature of 950-1150 "С with the simultaneous sorption of waste gases in scrubbers with a solution of calcium hydroxide, the finished product - tungsten oxide - obtained at the exit from the furnace is separated from slag and slags by sieving, after which the unburned tungsten carbide is submitted for re-firing.

The method of processing hard alloy waste based on tungsten carbide is carried out as follows.

Hard alloy waste based on tungsten carbide is submitted for cleaning from external contamination by dry and wet method, dried and classified into fractions up to 5-50 mm and above 50 mm. Carbide waste based on tungsten carbide is oxidized in tunnel furnaces at temperatures of 950-1150 "С under the conditions given in the table, with simultaneous sorption of waste gases in scrubbers with a calcium hydroxide solution. Carbide waste based on tungsten carbide is oxidized to tungsten oxide in the tunnel furnace. After the fired material is shipped, the tungsten oxide layer is easily separated from the unreacted material, which can be reloaded into the furnace for post-oxidation.

Examples 1-3.

Solid waste based on tungsten carbide is submitted for cleaning from external contamination by dry and wet methods, dried and classified. Only fractions up to 50 mm are used. Tungsten carbide-based hard alloy waste is fed into a rotary kiln.

As a result of heating at temperatures of 950-1150 "C, tungsten carbide-based hard alloy waste is oxidized under the conditions given in the table. In a rotary furnace, tungsten carbide-based hard alloy waste is oxidized to tungsten oxide. The oxidation process is accompanied by simultaneous sorption of waste gases in scrubbers with hydroxide solution calcium. During heating of tungsten carbide-based hard alloy waste, tungsten oxide is separated from the unreacted material, which is returned to the technological process for post-oxidation. Thus, complete oxidation of tungsten carbide-based hard alloy waste to tungsten oxide is ensured. Examples 4-7.

Table of p/p indicators. | 1 | 2 | with | 4 | 5 | 6 | 7

Equipment for oxidation 1 | hard alloy Tunnel |Tunnel | Tunnel (Rotary/Rotary|Rotary|Rotary waste based furnace furnace furnace furnace furnace furnace tungsten carbide furnace

Output secondary 2 | tungsten-containing VKeVK | VKeVK | VKeVK | vK8VK | vKeVvK | vKeVK | vK8VK raw materials

Temperature wait || 258 111 oxide, mm

Heating time, minutes per 1 cm of thickness 10 10 15 Z Z 5 7 products

The average degree of extraction of tungsten in the 7th form 0.5 0.92 0.7 0.92 0.97 0.98 tungsten oxide

Purity of the obtained tungsten, calculated on 84.9 84.9 84.9 84.9 84.9 84.9 84.9 tungsten oxide

MO", to" 5 As can be seen from the table, the use of tunnel furnaces (examples 1-3) is somewhat inferior in efficiency to rotary furnaces, which allow removing the obtained tungsten oxide from the surface of hard alloy waste based on tungsten carbide.

Examples 1, 4 and 7 are impractical to use on an industrial scale, as they cover the upper and lower temperature limits of the tungsten carbide-based hard alloy waste oxidation process. In example 1, insufficient conversion of tungsten carbide into tungsten oxide occurs.

This method of processing hard alloy waste based on tungsten carbide makes it possible to simplify the process of extracting tungsten during the processing of hard alloy waste based on tungsten carbide, increase the rate of oxidation of tungsten carbide due to the shaking of the oxide layer (in rotary furnaces), reduce energy costs for the process and prevent the formation of toxic emissions by chemisorption carbon dioxide with lime solution in hollow scrubbers.

Claims (1)

USEFUL MODEL FORMULA The method of processing hard alloy waste based on tungsten carbide, which includes purification of waste based on tungsten carbide from impurities, drying, classification of fractions of the required size, oxidation of hard alloy waste based on tungsten carbide to tungsten oxide in tunnel or rotary furnaces, chemisorption of the accompanying product - of carbon dioxide, which differs in that tungsten carbide-based waste is oxidized in tunnel or rotary furnaces, and waste larger than 50 mm is oxidized only in tunnel furnaces, oxidation is carried out at a temperature of 950-1150 "C with simultaneous sorption of waste gases in scrubbers with a solution calcium hydroxide, the finished product obtained at the exit from the furnace - tungsten oxide - is separated from slag and slag by sieving, after which the unburned tungsten carbide is submitted for re-firing.