RU2308435C2 - Ceramic charge for manufacture of acid-resistant tiles - Google Patents

Abstract

FIELD: manufacture of ceramic materials; compositions for manufacture of acid-resistant articles.

SUBSTANCE: proposed ceramic charge contains crude kaolin and "tailings" of polymetallic ore concentration process and aluminum salt slags at the following ratio of components,, mass-%: crude kaolin, 45-60; aluminum salt slag, 30-38; "tailings" of polymetallic ore concentration process, 10-17.

EFFECT: enhanced heat resistance of acid-resistant tiles; utilization of industrial waste; extended sources of raw materials.

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Description

The invention relates to the industry of ceramic materials, mainly to compositions of the masses to obtain acidproof.

Known ceramic mass to obtain acid-resistant materials of the following composition, wt.%: Jean-Daurian clay 50, pyrophyllite 50 [1].

The disadvantage of this composition is the relatively low frost resistance (30 cycles).

Closest to the invention is a ceramic mass for the manufacture of acid-resistant materials, comprising the following components, wt.%: Unenriched kaolin 60-80, "tailings" of the concentration of polymetallic ores 10-20, pyrophyllite 10-20 [2]. Adopted as a prototype.

The disadvantage of this composition of the ceramic mass is the relatively low heat resistance of acid-resistant materials.

The technical result of the invention is to increase the heat resistance of acid-resistant tiles.

The specified technical result is achieved by the fact that in the well-known ceramic mass, including unenriched kaolin and "tailings" of enrichment of polymetallic ores, aluminum salt slags are additionally introduced in the following ratio of components, wt.%:

unrefined kaolin 45-60 salt aluminum slag 30-38 polymetallic ore dressing tails 10-17

Salt aluminum slag was used as an aluminum-containing raw material. The content of Al ₂ O ₃ in the slag is more than 40%. It is known that Al ₂ O ₃ delays the devitrification of quartz glass into cristobalite, reduces the CTE (coefficient of thermal expansion) and thereby increases the heat resistance of ceramic products. Chemical analysis showed the content of the following components in slags, wt.%: NaCl - 10.25; CaO + CaCO ₃ - 14.28; MgO + MgCO ₃ - 15.30; FeCl ₃ - 0.001; SiO ₂ - 3.10; Al ₂ O ₃ - 41.282; KCl - 5.35; CuCl ₂ - 0.001; alkyl mercaptites Al - 0.545; saturated hydrocarbons - 0.001; Al (metallic) - 9.89. The chemical compositions of unenriched kaolin and “tailings” for the processing of polymetallic ores are given in Table 1.

Table 1
The chemical composition of the components Components The content of components, wt.% SiO ₂ Al ₂ About ₃ Fe ₂ About ₃ Cao MgO R ₂ O P.p.p. Unenriched kaolin 62.74 18.39 3.21 1.81 1.8 1,62 7.34 Polymetallic ore tailings 77.72 9.19 4.42 1.45 1.85 3.10 0.55

The ceramic mass was prepared in a plastic way at a moisture content of 18-22%. Square tiles of type PK-1 were formed, which were dried to a residual moisture content of not more than 5% and then fired at temperatures of 1200-1250 ° C. Table 2 shows the compositions of the ceramic masses, and in table 3 the physical and mechanical properties of acid-resistant tiles.

table 2
The compositions of ceramic masses Components The content of components, wt.% one 2 3 four prototype Unenriched kaolin 60 55 fifty 45 60-80 Pyrophyllitis 10-20 Polymetallic ore tailings 10 12 fifteen 17 10-20 Salt aluminum slag thirty 33 35 38 -

Table 3
Physicomechanical indicators of acid resistance Indicators Compositions Prototype one 2 3 four Shrink% 7.8 7.6 7.5 7.3 7.8-8.8 Bending Strength, MPa 43 45 48 49 34-41 Heat resistance cycles 9 eleven 12 fourteen 7-8 Acid resistance,% 97.9 98.2 98.8 98.9 97.8-98.8 Frost resistance cycles 35 42 48 49 -

As can be seen from table 3, acid-resistant tiles from the proposed compositions have higher heat resistance than the prototype.

The resulting technical solution when using salt aluminum slags will significantly increase technogenic raw materials in the compositions of ceramic masses.

The use of technogenic raw materials in the production of acid-resistant materials contributes to the utilization of industrial waste, environmental protection and the expansion of the raw material base for ceramic materials.

Information sources

1. Abdrahimova E.S. Kinetics of changes in the structure of porosity in the process of acid-resistant firing / E.S. Abdrakhimova, V.Z. Abdrakhimov. // News of universities. Construction. - 2000. - No. 9. - S. 38-41.

2. Pat. 11977 of the Republic of Kazakhstan, IPC С04В 33/00. Ceramic mass for the manufacture of acid-resistant materials / E.S. Abdrakhimova. - Publ. 09.16.2002, Bull. No. 9.

Claims (1)

Ceramic mixture for the manufacture of acid-resistant tiles, including unenriched kaolin and "tails" of the enrichment of polymetallic ores, characterized in that it additionally contains aluminum salt slags in the following ratio, wt.%: Unenriched kaolin 45-60 Salt aluminum slag 30-38 Polymetallic ore tailings 10-17