RU2188736C2 - Method for making investment patterns - Google Patents

Abstract

FIELD: machine engineering, namely casting with use of investment patterns. SUBSTANCE: pattern is made of powdered mixture of pattern composition with fraction size (0.1-1.6) mm. Method comprises steps of metering pattern material to press mold in quantity providing manufacture of patterns with porosity degree (3-10)%; pressing pattern material without preliminarily heating it due to coinciding parting surfaces of press-mold; sintering powdered pattern material at pressing practically without phase deformation processes at providing open capillary porosity which compensates thermal expansion of pattern at melting-out it from ceramic envelope. EFFECT: enhanced dimensional and geometrical accuracy of patterns and castings. 1 tbl

Description

 The invention relates to methods for manufacturing investment casting in investment casting and can be used in the engineering industry of the national economy.

 A known method of manufacturing porous lost wax models from a paste-like model material [1]. Pasty model materials are prepared by cooling the melt while continuously mixing it to a pasty state. During the mixing of the model material, air is kneaded, the content of which is regulated by 20%. For the manufacture of models, a paste-like model material of strictly regulated temperature is used, which is fed under pressure into the cavity of the mold.

 The mold cooled in the mold is used to make shell molds.

 The considered method has several disadvantages. In the manufacture of models, an uncontrolled distribution of air over its volume is observed, which leads to the formation of surface defects and underfilling. The concentration of air, especially in the thin parts of the model, leads to its destruction when removed from the mold. Changes in the temperature storage conditions for investment models lead to a distortion of their geometric shape, for example, to bloating or the formation of sagging. The distortion of the geometric shape of the models is also observed when they solidify in the mold, which requires strict observance of technological parameters, such as process temperature and model formation pressure.

 Models made by the considered method have an effect on the appearance of marriage of shell forms.

 The melting of the model from the shell mold is accompanied by the thermal expansion of the model material and air blocked in the structure of the model, and since the process of heating the shell occurs non-uniformly, then in the zones farthest from the gate funnel, pressures from thermal expansion develop exceeding the permissible values, which leads to the formation of cracks in the structure of the shell and, in some cases, to their destruction. In this case, air concentrated in one place cannot compensate for temperature deformations of the model.

 Under the influence of pressure, the melt of the model material penetrates the structure of the shell mold, has a proppant effect during heat treatment of the shell, significantly reducing its strength.

The closest in technical essence and the achieved result is a method for manufacturing investment castings using powder of model material [2]. The essence of the method lies in the fact that the powder of the same composition with a temperature of ± 10 ^o C fractions of 0.1-1 mm is introduced into the melt of the model composition at 60-65 ^{o C.} This allows you to intensify the process of cooling the melt of the composition, to provide a more uniform distribution of porosity throughout the volume of the manufactured model and to increase the productivity of manufacturing models with a finely dispersed structure. The implementation of the invention allows to reduce the marriage of models for weights and swellings.

 However, the prototype method under consideration for manufacturing investment castings has a number of disadvantages that impede the achievement of the required technical result.

 When implementing the prototype method, strict control over compliance with the temperature regime for the manufacture and storage of investment models is required. The manufacture of models is accompanied by the appearance of defects in underfillings resulting from backpressure of air in the mold cavity; weights and warpage resulting from shrinkage processes during hardening and cooling of a multicomponent model material having a wide crystallization interval. There is a possibility of violation of dimensional and geometric accuracy of the models from bloating or pulling when storage conditions are not observed. The production of models is accompanied by the formation of uncontrolled closed porosity, which does not compensate for the thermal expansion of the model until it melts when removed from the shell mold.

 These and other disadvantages are eliminated by the proposed technical solution.

 The problem solved by the claimed method for manufacturing investment castings is to increase the dimensional and geometric accuracy of the resulting models and castings; physical and mechanical properties of shell forms.

 The essence of the invention lies in the fact that the model material is used in the form of a mixture of powders of its components fractions of 0.1-1.6 mm, which are dosed into the mold in an amount that provides 3-10% of the porosity of the cast models, and the model material is pressed without pre-heating by combining the surfaces of the mold connectors.

 A causal relationship between the essential features and the technical result achieved is achieved through the ability of the powdery components of the model material to sinter during pressing practically without the formation of a liquid phase and, as a result, without phase deformation processes with the formation of open capillary porosity, which allows to reduce marriage in the manufacture of models, to increase their dimensional and geometric accuracy, increase the strength of shell molds and reduce their losses during melting modes lei and calcination to improve the quality of castings and surface accuracy.

 The production of investment models by the proposed method has several advantages over existing methods. Completely eliminated the marriage of models in their manufacture. Poured in a certain amount (to provide 3-10% of the porosity of the models) in the mold model powdery material is evenly distributed over its volume. When pressing (closing the mold), the material fills all the undercuts and cavities of the mold, preventing underfilling, because the material, partially altering with the air, squeezes out its excess from the mold. The surface quality of the models obtained by this method corresponds to the surface quality of the molds and has a characteristic specular gloss.

 The foregoing is true for powders of the model material fractions of 0.1-1.6 mm When using model materials of a larger fraction, granules are destroyed on the surface of the models with the formation of surface defects in the form of crests, while smaller ones are accompanied by clumping, which complicates the introduction of material into the mold.

 When implementing the proposed method there is no need for the formation of a pasty composition with certain intervals of solidification.

 Dosing of powdered model material into the mold in smaller quantities, providing models with a porosity of more than 10%, leads to a decrease in the physicomechanical properties of the models, and in some cases to shedding of model elements.

 The process of removing models obtained by the claimed method from shell forms in hot water is accompanied by their volumetric reduction during melting. When the models are heated, expanding air is removed from the model through the shell form by means of the open porosity of their structures. The resulting liquid phase of the model material is absorbed into the model under the action of capillary forces, the temperature expansion of the model is compensated by porosity.

 Based on the foregoing, the lost wax model does not exert a force effect on the shell mold and does not impregnate it, which makes it possible to increase the strength of the shells by 20-40%, reduce their loss during calcination, and improve the quality of castings in terms of surface cleanliness and accuracy.

 The implementation of the proposed technical solution is as follows.

 A pre-prepared mixture of powders of the model material fraction of 0.8 mm is dosed directly into the mold in a volume of ~ 25 volumes of the produced investment model, which ensures its manufacture with 3% porosity. Pressing models is carried out by combining (closing) the elements of the mold. After pressing, the vacuum decreases, the mold opens, the model is removed using the pushers of the mold.

 The technological properties of investment models manufactured by the claimed method are presented in the table.

 Based on the analysis of the results of the technological properties of the lost wax models presented in the table, the claimed ranges for the manufacture of models are preferred.

 The industrial applicability of the developed method for manufacturing investment castings is due to: the elimination of the availability of high-precision expensive equipment; the simplicity of the technological operation of the manufacture of models; a significant reduction, and, in some cases, the complete abolition of marriage in the manufacture of models; the complete abolition of marriage of shell forms during the smelting of models, as well as at the stage of their formation; increasing their dimensional and geometric accuracy, strength properties after calcination; increasing the dimensional and geometric accuracy of castings, their surface quality, which leads to a significant reduction in the cost of machining.

Sources of information
1. Lost wax casting / V.N. Ivanov, S.A. Kuzennov, B.S. Kurchman et al. / Under the general. ed. ME AND. Shklennika, V.A. Ozerova. - 3-ed., Revised. and add. - M.: Mechanical Engineering, 1984. S. 133-136.

2. A.S. 1687358 USSR, MKI ⁵ V 22 C 7/02. Lost wax casting manufacturing method / P.F. Stepchenko, G.I. Naumov, V.S. Makolkin, U.E. Shirobonova. - Declared. 01/03/89; publ. 10.30.91., BI 40.

Claims (1)

 A method of manufacturing investment castings, including pressing a model material in a mold, characterized in that the model material is used in the form of a mixture of powders of a fraction of 0.1-1.6 mm, which is metered into the mold in an amount that provides models with porosity 3 -10%, while pressing the model material is carried out without preheating by combining the surfaces of the mold connectors.

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