RU2686410C1 - Method of making ceramic mold - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to foundry and can be used in making ceramic molds. A ceramic mixture is applied on the bismuth and tin alloy model, the ceramic mixture is dried and the model is removed from the ceramic mold. Removal of model from ceramic mold is performed by means of glycerine, heated to temperature of 140–290 °C. Glycerine penetrates into the structure of the ceramic mold and destroys mechanical and chemical adhesion bonds between the bismuth oxide film and the surface of the ceramic mold, as a result, the bismuth oxide film is entrapped by the melt and removed together with it. At that, due to closure of pores of ceramic mold with glycerine formation of bismuth oxide film is prevented.

EFFECT: higher quality of casting mold.

4 cl, 1 ex

Description

The invention relates to methods for producing ceramic molds and can be used in mechanical engineering, ferrous and non-ferrous metallurgy and other industries.

A known method of making a ceramic mold, comprising applying the ceramic mixture to a model from a gel, keeping the mixture until it solidifies, and removing the model by immersion in a heated medium, while the remaining gel can be removed using glycerin [US5906781, publication date: 25.05.1999. , IPC: B22C 7/02].

A known method of making a ceramic mold, comprising applying a ceramic mixture to a model of ethylene vinyl resin and fatty acid ketones, keeping the ceramic mixture until it hardens and removing the model by immersion in a heated glycerin bath [US4064083, publication date: 20/12/1977, IPC: B22C 7/02].

A common disadvantage of the known methods of making ceramic molds is the low strength of models, volumetric shrinkage and warping during molding into a mold, as well as the need to perform soldering operations when assembling model blocks, during which models can experience thermal and mechanical effects resulting in additional deformations. This is due to the fact that the models are made of organic materials based on saturated hydrocarbons or a mixture of other organic substances, which leads to the need to increase the mass of the casting through additional process allowances, and it also becomes impossible to manufacture high-precision ceramic molds that have thin-walled complex structures inside. .

As a prototype, a method of manufacturing a ceramic mold was chosen, including placing a model of an alloy of bismuth and tin in a ceramic mixture, drying the ceramic mixture, and removing the model by heating the ceramic form in a furnace at 180 ° C [EP240190A2, publication date: 10/07/1987 g ., IPC: B28B 3/00].

The advantage of the prototype over the known technical solutions is the possibility of manufacturing high-precision ceramic molds with complex thin-walled structures due to the use of a model made from an alloy of bismuth and tin, which has low (zero) shrinkage and high strength characteristics. However, a significant disadvantage of the prototype is the low quality of the inner surface of the ceramic mold to be made due to the bismuth oxide film, which is formed during the manufacture of the mold and due to strong adhesive bonds remains on the inner surface of the ceramic mold after removing the model, as a result of which a ceramic mold mold can be formed or marriage casting (details), because the film enters the composition of the metal poured into the ceramic mold, or it may be necessary to perform additional mechanical treatment of the inner surface of the ceramic mold, resulting in a reduced quality of its manufacture, which negatively affects the stability of the technological process and the quality of parts manufactured using the ceramic mold.

The technical problem, the solution of which the invention is directed, is to improve the quality of manufacture of the ceramic casting mold.

The technical result, the achievement of which the invention is directed, is to reduce the risk of deposition or re-formation of a film of bismuth oxide on the inner surface of a ceramic mold in the process of removing the model from an alloy of bismuth and tin.

The invention consists in the following.

A method of making a ceramic mold involves applying a ceramic mixture to a model made from an alloy of bismuth and tin, drying the ceramic mixture and removing the model from a ceramic mold. Unlike the prototype, the removal of a model from a ceramic casting mold is carried out using glycerol heated to a temperature of 140-290 ° C.

The model of bismuth and tin has a melting point of up to 250 ° C and can be made by any known methods of shaping, for example, by casting, stamping, machining the workpiece to the desired shape or by means of additive growth of the model using 3D printing. The model of bismuth and tin can be geometrically designed in such a way as to ensure that there are no areas with hydraulic pockets in the ceramic form and to provide the necessary number of sinks to completely remove the mixture from the ceramic form when the model is removed.

The application of the ceramic mixture on the model of low-melting metal can be carried out by any known method, for example, by spraying or immersion in a bath with a ceramic mixture or other known methods. In this case, a water-based binder, either based on hydrolyzed ethyl silicate or liquid glass, or on any other known types of binders that provide a ceramic type of bond can be used as a ceramic mixture. In addition to the binder, the support material and the filler material of the suspension - granules of aluminum oxide or silicon, or other known types of fillers used for the production of ceramics, which have a fractional (particle size) composition from dust to coarse-grained fractions, can be used.

Drying of the ceramic mixture can be performed for any amount of time and by any known method. At the same time, to increase the drying rate, the ceramic mixture can be heated to a temperature of 22-35 ° C or chemical methods of accelerated drying can be used, for example, an ammonia medium for ceramic crusts based on hydrolyzed ethyl silicate.

The removal of the model from a ceramic mold is carried out using glycerin heated to a temperature of 140-290 ° C, which makes it possible to melt the low-melting metal. This ensures the wetting of the inner surface of the ceramic form and the destruction of the mechanical and chemical adhesive bonds of the bismuth oxide film and the surface of the ceramic form, and also closes the pores of the ceramic form with glycerin, which prevents the possibility of deposition of a film of bismuth oxide on the surface of the ceramic form, as well as the ingress of the oxidizing medium into the internal cavity of the form, helping to reduce the risk of re-formation and / or growth of a bismuth oxide film. If the temperature of the glycerin is less than 140 ° C, the melting of the low-melting metal is not ensured, and if the temperature of the glycerin is more than 290 ° C, the risk of emission of harmful substances into the atmosphere from the heated melt increases. Removing a model from a ceramic mold can be done with pure glycerin or a water-glycerin mixture.

Removal of the melt from the ceramic mold can be performed under the action of gravity and / or inertial forces in the process of melting the model, or after complete melting of the entire volume of the model by changing the spatial position of the ceramic mold or opening technological channels in the ceramic mold.

Additionally, to reduce the risk of cracking of the ceramic mold, the model can be removed by immersing the ceramic mold in glycerin at 140 ° C and gradually increasing the glycerin temperature to 290 ° C. For example, a gradual increase in temperature can be produced at a rate of 10 ° C / min.

Additionally, to reduce the risk of cracking a thin-walled ceramic mold and to increase the efficiency of breaking adhesive bonds between the bismuth oxide film and the inner surface of the ceramic mold, before removing the model from the ceramic mold, it can be soaked in a ceramic glycerin at a temperature of 20-30 ° C

Additionally, in order to increase the removal efficiency of a model having high weight and size characteristics, a short-term dipping of the ceramic mold into heated glycerin with its subsequent extraction and heating can be performed. In this case, heating can be carried out by any known method, for example, induction, infrared, convection, etc.

The invention has a previously unknown set of essential features, characterized in that the removal of the model from an alloy of bismuth and tin is carried out using glycerol heated to a temperature of 140-290 ° C. Due to the fact that the heated glycerin penetrates into the structure of the ceramic mold, the mechanical and chemical adhesion bonds between the bismuth oxide film and the surface of the ceramic mold are destroyed, resulting in the bismuth oxide film being captured by the melt and removed with it. At the same time, due to the closure of the pores of the ceramic casting mold with glycerol, the bismuth oxide film is not re-formed. This ensures the achievement of the technical result, which consists in reducing the risk of deposition or re-formation of a film of bismuth oxide on the inner surface of the ceramic mold in the process of removing the model from bismuth and tin alloy, thereby increasing the quality of manufacture of the ceramic mold.

The presence of new distinctive essential features testifies to the compliance of the invention with the criteria of patentability "novelty".

The set of essential features of the invention allows to achieve a previously unknown technical result, which consists in reducing the risk of deposition or re-formation of a film of bismuth oxide on the inner surface of a ceramic mold in the process of removing a model from a bismuth and tin alloy. This is explained by the fact that in the process of making a model from bismuth and tin, both in an oxidizing and neutral environment, with the subsequent movement of the model into an oxidizing environment, a film of bismuth oxide is formed on the surface of the model. In the process of applying the ceramic mixture to the model, the bismuth oxide film interacts with the ceramic mixture, as a result of which a mechanical adhesive bond is formed between them, and when the ceramic mixture is dried, a strong chemical adhesive bond is added to the mechanical adhesive bond. When a model is removed from a ceramic mold with heated glycerin, the surface of the ceramic mold is wetted, which ensures the destruction of both mechanical and chemical adhesive bonds, and by closing the pores of the ceramic mold, the possibility of re-formation of adhesive bonds between the films of bismuth oxide and the surface of the ceramic mold is excluded . At the same time, due to the fact that the molecular adhesion forces at the melt-oxide film interface are much higher than the molecular forces at the oxide film-glycerin interface, the melt entrains bismuth oxide films and removes them from the ceramic form. The effect of heated glycerol on the removal of a form from an alloy of bismuth and tin from a ceramic mold is not known from the prior art and ensures the achievement of a non-obvious technical result, which allows to make a conclusion about the compliance of the invention with the patentability criterion of "inventive step".

The invention can be implemented using known means, materials and technologies, which indicates its compliance with the patentability criterion of "industrial applicability".

The invention is illustrated by the following implementation example.

For the manufacture of the model took an alloy consisting of a mixture of bismuth and tin in the following ratio, wt. %, tin - 56.5%, bismuth - 43.5%, while the resulting alloy had a melting point of 140 ° C. On the hardened model of a mixture of bismuth and tin, a ceramic crust was applied by dipping into a suspension consisting of a binder based on hydrolyzed ethyl silicate and a filler — aluminum oxide granules with an average grain size of 3 μm, followed by sprinkling with an average filler of aluminum oxide granules with an average grain size of 20, 120 300 microns, respectively, while for the first two layers, grains of smaller size were used, and for subsequent ones - larger.

The ceramic mixture was dried at 23 ° C. After the ceramic mixture hardened, the model was removed from the ceramic mold by immersing it in a bath of water-glycerin mixture heated to 200 ° C, resulting in glycerin penetrating the pores of the ceramic mold to the surface of the bismuth oxide film and breaking the adhesive bonds between the oxide film bismuth and the inner surface of the ceramic mold. In this case, glycerin blocked the pores of the ceramics and prevented oxygen from entering the inside of the ceramic mold, reducing the risk of re-formation and / or an increase in the thickness of the bismuth oxide film.

The model melted, and due to the adhesive bonding forces, the melt removed a film of bismuth oxide from the surface of a ceramic mold, and glycerin prevented the inner surface of the ceramic mold from being re-wetted by the melt, reducing the risk of re-formation of a film of bismuth oxide.

Thus, a technical result is achieved which consists in reducing the risk of deposition or re-formation of a film of bismuth oxide on the inner surface of a ceramic mold in the process of removing a model from an alloy of bismuth and tin, thereby improving the quality of manufacturing of the ceramic mold and the quality of the final cast parts.

Claims (4)

1. A method of manufacturing a ceramic mold, comprising applying a ceramic mixture to a model of an alloy of bismuth and tin, drying the ceramic mixture and removing the model from a ceramic mold, characterized in that the removal of the model from a ceramic mold is produced in glycerin heated to 140- 290 ° C. 2. The method according to p. 1, characterized in that the removal of the model produced by immersing the ceramic form in glycerin at a temperature of 140 ° C and a gradual increase in the temperature of the glycerol to 290 ° C. 3. The method according to p. 1, characterized in that the removal of the model produced by brief dipping of the ceramic form in the heated glycerin with its subsequent extraction and heating. 4. A method according to claim 1, characterized in that before removing the model from the ceramic mold, the ceramic mold is soaked in glycerin at a temperature of 20-30 ° C.