RU2148464C1 - Mixture for casting form and rod making - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: mixture has the following components, wt. -%: depleted sand-clay mixture 38.0-47.0; water-glass binding agent 4.2-4.4; aluminium hydroxide 0.20-0.25; sodium hydroxide 0.50-0.55; technical water 0.60-0.80 and silicon dioxide-base refractory filling agent - the rest. Mixture can be used for making casting forms and rods solidified by heat drying. EFFECT: decreased consumption of pure refractory filling agent, unusing molding clay, improved knocking-out, retained necessary strength after hardening, decreased collapsibility mixture. 5 tbl, 1 dwg

Description

 The invention relates to the field of foundry and can be used for the manufacture of foundry molds and cores based on refractory filler - quartz sand and spent sand-clay mixture, cured by heat drying.

 The central problem in the use of molding and core mixtures using a liquid-glass binder in the production of cast billets in one-time forms is their difficult knockability and excessive consumption of quartz refractory filler (approximately 1 ton of sand is consumed in the production of 1 ton of casting). In addition, spent sand and clay mixtures used in the production of cast billets have to be disposed of as waste, expanding the waste dumps and thereby polluting the environment.

The composition of the mixture is known, including liquid glass - 3.8 ... 4.2%, aluminoborophosphate concentrate (ABFC) - 0.5 ... 0.7% and quartz sand - the rest [1]. The mixture for curing the liquid glass binder contains alumina-phosphate concentrate, which contains 8.0 ... 9.0% Al ₂ O ₃ , due to which there is a decrease in the formation of liquid silicates during the pouring of metal into the mold and improve knockability. This composition of the mixture has a low survivability, where curing occurs already in the mixer during cooking. As a result, the partially cured mixture is destroyed during the preparation process and the rods and molds made from it have low strength and high crumbling.

 Another known composition of the mixture includes extruded starch-containing reagent (EC) (starch production waste) - 0.09 ... 0.12%, bentonite - 2.1 ... 2.6%, water glass - 6.3 ... 7.5%, caustic soda - 0.37. ..0.44%, water - 0.90 ... 1.50 and a refractory filler based on silicon dioxide - the rest [2]. It is argued that the introduction of a mixture of starch-containing reagent, bentonite and water increases the gas permeability of the mixture, its survivability and strength.

The disadvantage of the mixture is that it contains substances having low melting and degradation temperatures. The resulting binder composition, consisting of water glass, bentonite clay and starch-containing reagent, is non-heat resistant. A complex system forms many eutectics with a low melting point when heated with liquid metal during the pouring process. The resulting agglomerate firmly binds the grains of refractory filler after cooling the mold and the mixture is poorly knocked out. Even the presence of organic matter (starch-containing reagent), which degrades at relatively low temperatures (150 ... 350 ^o C), does not facilitate the process of knocking out castings. This is because the mixture contains a relatively large amount of water glass (6.3 ... 7.5% high density ρ = 1.47 ... 1.52 g / cm ³ and a small module M = 2.4 ... 2.8). Simple calculations according to the leverage rule of the resulting Na ₂ O-SiO ₂ -Al ₂ O _{3 system} show that if the mixture heats up to 800 ... 1100 ^o C, a large amount of silicate liquid is obtained (within 3.0 ... 3.4% at 6% liquid glass in the mixture), which significantly strengthens the shape and rods after pouring and cooling the metal. In addition, the presence of organic components of the mixture with a low temperature of destruction does not contribute to improving the working conditions of foundry workers.

A known mixture [3] with the following ratios of ingredients: kaolinite clay, calcined at 630 ... 770 ^o C - 5.1 ... 7.9%, liquid glass - 5.7 ... 6.1%, caustic soda - 0.9 ... 1.1%, quartz sand - the rest. It is known that kaolinite clays contain approximately the same amount of Al ₂ O ₃ and SiO ₂ . When the clay mass of kaolinite is heated to a temperature of 770 ... 800 ^o C, instead of crystalline kaolinite Al ₂ O ₃ • 2SiO ₂ • 2H ₂ O, amorphous and more reactive metakaolinite Al ₂ O ₃ • 2SiO _{2 is formed} [4]. As a result of the interaction of metakaolinite and water glass (or an aqueous solution of sodium hydroxide), a colloidal solution of sodium aluminosilicate is formed, which enhances the astringent properties of the silicate binder. In addition, the aluminosilicate components of liquid glass increase its melting temperature as a result of exposure to the shape of the liquid metal. As a result, the formation of liquid silicates is prevented, which positively affects the knockability of the mixture. The disadvantage of the mixture is that the fine powder of the calcined kaolinite clay has a large specific surface area. Therefore, to ensure the necessary strength of the mixture after drying, an increased amount of water glass is added to it (the mixture contains up to 5.7 ... 6.1% sodium silicate solution with a high density ρ = 1.46 ... 1.49 g / cm ³ ). This contributes to an increase in the formation of liquid silicates during heating and to a deterioration of the knockability of the mixture.

 The mixture [5], which is closest in physical essence and achieved effect to the proposed one, was adopted as the closest analogue. This mixture consists of the following ingredients: molding clay - 1 ... 3%, liquid glass - 5. ..8%, red mud of alumina production (KShGP) - 1 ... 3%, refractory filler - the rest. The mixture contains red mud, which contains 27. ..40% sodium-calcium aluminosilicate and 2 ... 4% aluminum hydroxide. During the interaction of aluminate components of molding clay and red mud with an alkaline liquid glass solution, processes similar to reactions occurring in the mixture described in the analogue [3] occur. The interaction process of the constituents of the analog mixture [5] is accompanied by the formation of sodium aluminosilicates in the form of colloidal solutions having more astringent properties compared to the initial liquid-glass binder. Spreading over the entire volume of the binder composition, sodium aluminosilicate increases the binding properties of the binder and, as a result, the strength of the molds and rods.

 The disadvantage of the analogue mixture is the high consumption of molding clay and a pure refractory filler based on silicon dioxide.

 The problem to which the invention is directed, is to reduce the consumption of pure refractory filler based on silicon dioxide, to improve the knockability of the mixture while maintaining its necessary strength and minimal crumbling, as well as the complete non-use of molding clay.

 The solution to this problem is achieved by developing a mixture for the manufacture of foundry molds and cores, including a refractory filler based on silicon dioxide, liquid glass and, in addition, a refractory sand-clay mixture as a refractory filler, and aluminum hydroxide, caustic soda and water as a modifier with the following ratios of ingredients wt. %: spent sand-clay mixture (burnt earth) - 38 ... 47, liquid glass binder - 4.2 ... 4.4, aluminum hydroxide (dry powder) - 0.2 ... 0.25, sodium hydroxide (dry powder) - 0.5 ... 0.55, industrial water - 0.6. ..0.8, quartz sand based refractory filler - the rest.

 The invention is illustrated by the drawing, which shows the microstructure of the mixture using aluminosilicate binder after knocking out.

 Quartz sand and spent sand-clay mixture are used as a refractory filler. The average composition of the spent sand-clay mixture is given in table. 1.

Liquid glass was used with a module M = 2.95 ... 3.0 and a density ρ = 1.40 ... 1.41 g / cm ³ . Sodium hydroxide (NaOH according to GOST 4328-74, caustic) was used in the form of a 45% aqueous solution, aluminum hydroxide in the form of a dry powder (according to GOST 3769-73).

The mixture was prepared as follows. A dry powder of aluminum hydroxide was added to a 45% aqueous solution of caustic soda and stirring was performed for 5 ... 7 min. Then, the resulting aluminate solution was mixed with a liquid-glass binder for 5 ... 7 minutes. After that, quartz sand and burnt earth were mixed with the prepared binder composition. The samples made from the mixture were tested for wet strength, strength after thermal drying at a temperature of 200 ... 250 ^o C, for crumbling and fracture work after calcining samples at a temperature of 800 ... 1100 ^o C (knockout work).

The increase in the strength characteristics of the mixture can be explained as follows. When mixing an alkali solution (caustic soda solution - NaOH) with aluminum hydroxide (Al (OH) ₃ ), a colloidal solution of sodium aluminosilicate with more astringent properties may form. The prepared mixture of aluminate solution was added to the liquid glass binder, and due to this, an increase in the binding properties of the resulting composition occurred. In this case, the following process may occur:
Al (OH) ₃ + NaOH = Na [Al (OH) ₄ ] sodium tetrahydrooxoaluminate
Thus, the resulting colloidal particles of hydroxyaluminate, which have more astringent properties, are distributed throughout the volume of the liquid glass binder, improve its binding characteristics. In addition, when mixing the aluminosilicate binder composition with a refractory filler, which includes (in parts of the burnt earth) from 7.0 to 12% Al ₂ O ₃ , sodium aluminosilicate also forms
Al ₂ O ₃ + 2NaOH + 3H ₂ O = 2Na [Al (OH) ₄ ] sodium tetrahydrooxoaluminate
In this case, the improvement in knockability (the work of destruction of the mixture samples after calcining them at a temperature of 800 ... 1100 ^o C is reduced) occurs due to the fact that after exposure to the temperature of the molten metal, it is possible to obtain a softened silicate structure (see illustration - the microstructure of the mixture using aluminosilicate binder after knocking out).

Under the influence of high temperatures, sodium hydroxylaluminate undergoes destruction with the formation of Al ₂ O ₃ and NaOH and their subsequent interaction. The resulting compound 2NaAlO ₂ (or Na ₂ O • Al ₂ O ₃ ) has a high melting point (about 1650 ^o C), does not contribute to the formation of liquid silicates and hardening of the form after cooling.

 The composition of the mixture, as well as mixture analogues with their technological properties are given in table. 2 and 3. An example of the practical implementation of the mixture is presented in table. 4 and 5.

 Analyzing the table. 2 and 3, we can conclude the following. In the manufacture of known compositions of mixtures, binders were used substances that to one degree or another contributed to the improvement of knockout. But at the same time, the mixtures had a relatively large number of materials containing aluminate components. Therefore, to maintain the necessary strength properties of the mixtures, an increased amount of a liquid-glass binder is introduced into their composition, which, of course, leads to a large formation of liquid silicates, strengthening it after pouring the metal into the mold.

 In addition, the used binder compositions containing organic components with a low temperature of destruction did not improve the conditions of gas contamination and dustiness of the air in the working area of technological areas of castings production.

 In the proposed mixture, the amount of spent sand-clay mixture (burnt earth) should not exceed 47.0%. An increase in this component in the composition of the mixture will lead to a decrease in the viscosity of the binder composition and to a deterioration in the uniformity and strength of the molds and cores. It should be noted that the content of the aluminate component of the mixture should not be increased more than that indicated in the composition (0.20 ... 0.25%), since in this case its survivability decreases and the curing process begins already in the mixer, and a smaller amount of aluminates does not contribute the formation of strength characteristics of the binder composition. The content of alkaline additives should not be more than 0.50. . .0.55%, since it contributes to a greater formation of liquid silicates when exposed to the high temperature of the molten metal, which significantly impairs the knockability of the mixture. A reduced amount of alkaline additives in the mixture (less than 0.50%) does not lead to an improvement in their strength properties due to its incomplete interaction with the aluminate component.

 The proposed composition of casting molds and cores with an aluminosilicate binder composition and a spent sand-clay mixture in its physical and mechanical characteristics can fully satisfy the requirements for the production of steel and cast iron castings obtained in single molds. The developed composition allows to reduce the consumption of liquid glass binder in the manufacture of foundry cores and molds, significantly reduce the need for quartz sand and improve knockout of mixtures.

 The introduction of the proposed composition of the mixture will allow to obtain both economic and social effect in the production of steel and iron castings. The economic effect will be obtained through the use of foundry waste and a reduction in the cost of casting in one-time forms, and the social one through the improvement of the environmental situation in populated areas while reducing the area of dumps.

Sources of information taken into account
1. Auth. St. N 1696090 A1 (USSR), cl. B 22 C 1/02, 1/18. Mix for the manufacture of molds and cores. G.A. Kolody, A.I. Zhdanov, R.I. Savelyev et al. Publ. in BI N 45, 12/07/91.

 2. Auth. St. N 1563836 A1 (USSR), cl. B 22 C 1/02, 1/16. Facing mixture for the manufacture of foundry molds and core. VK. Sidorovichev, A.V. Malkov et al. Publ. in BI N 18, 05.15.90.

 3. Auth. St. N 884823 (USSR), cl. B 22 C 1/18. Mix for the manufacture of molds and cores. N.F. Fedorov and G.P. Shlomin. Publ. in BI N 44, 11/30/81.

 4. Rybiev I.A. Cement-based building materials. - M.: Higher School, 1978, 307 p.

 5. Auth. St. N 1087244 A (USSR), cl. B 22 C 1/02, B 22 C 1/10. Mix for the manufacture of molds and cores. IN AND. Korneev A.G. Sousse, B.A. Kuzmin and others, Publ. in BI N 15, 04.23.84.

Claims (1)

A mixture for the manufacture of foundry molds and cores, containing a silica-based refractory filler, a liquid glass binder, water and a modifier, characterized in that it additionally contains a used sand-clay mixture as a refractory filler, and aluminum hydroxide and caustic soda as a modifier the following ratio of ingredients, wt.%:
Spent sand and clay mixture - 38.0-47.0
Liquid glass binder - 4.2-4.4
Aluminum hydroxide - 0.20-0.25
Caustic soda - 0.50-0.55
Industrial water - 0.60-0.80
Silicon Dioxide Refractory Filler - Else

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