RU200131U1 - CASTING EQUIPMENT FOR RESEARCHING THE HARDENING OF CASTINGS - Google Patents

Abstract

The invention relates to foundry. The device contains a pallet (1) with installed upper (8) and lower (6) half-molds with molding sand (10, 11) and thermocouples (18). The cavities for the formation of two castings (9) are made of the same shape and size with a common gating system in the upper mold half. The pallet is made in the form of two compartments (2) isolated from each other and a perforated plate (5) on which the mentioned half-forms are installed. In the molding mixture there are punctures (17) for blowing the castings with gas. Each compartment (2) is connected to a device (3, 4) for supplying and controlling gas supply. The lower mold half is equipped with a heat-insulating partition (7) dividing the lower mold half into two identical autonomous segments. Expanding the range of research and improving the accuracy of the results is provided. 3 ill.

Description

The utility model relates to the field of metallurgy and foundry production and can be used in research laboratories to study the solidification of castings under various modes of cooling the casting mold.

Known form for obtaining high-quality castings from cast iron, in the lower half of which is installed a removable cover with a divider for supplying gas to the mold cavity [patent RU 2156673, IPC B22D 27/04, publ. September 27, 2000].

However, this form does not allow the simultaneous pouring and testing of two castings with individual cooling modes, for example, the pouring of a pilot and test castings with a common gating-feeding system.

Known experimental casting mold, consisting of lower and upper mold halves, containing a blowing plate (mounted on a pallet), an air inlet and two castings with thermocouples, one of which is equipped with a tin jacket to isolate the casting from the filtering air, and the other casting is made with a reaction with a layer of molding sand [Research of cooling modes of cast iron castings / L.V. Kostyleva, V.A. Ilyinsky, N.I. Gabelchenko, A.V. Pozharsky, V.A. Gulevsky // Foundry. - 1999. - No. 2. - S. 9-11]. The casting mold has a common gating system for both castings.

However, the known form makes it possible to study the solidification of castings only under the same specified conditions of external factors affecting the investigated castings. In addition, the conditions of solidification of a casting with a tin jacket cannot be compared with the standard mode of solidification of a casting in a sandy-clay mold due to a slower heat removal, the jacket will retain the outgoing heat. As a result, the casting will have delayed cooling, which negatively affects the correctness of the results obtained.

The closest is the foundry equipment for investigating the solidification of castings, containing a pallet on which the upper and lower mold halves with thermocouples and the molding mixture are installed, forming cavities for the formation of two castings of the same shape and size, and a common gating system made in the upper mold half [patent RU 182267 , В22С 9/02, 09.08.2018].

However, the device is intended for the study of certain characteristics and does not allow for studies with multidirectional effects on the investigated castings of external factors: pouring temperature, chemical composition of the alloy.

The task of this technical solution is to develop a design of foundry equipment for studying the solidification of castings in laboratory conditions, with the possibility of multidirectional effects on the investigated castings of external factors under the same pouring conditions: pouring temperature, chemical composition of the alloy.

The technical result achieved when using the proposed foundry equipment is to expand the arsenal of devices for studying the solidification of castings, expanding the range of research and improving the accuracy of the results.

The technical result achieved is achieved by using a casting tooling for investigating the solidification of castings, containing a tray on which the upper and lower mold halves with thermocouples and molding sand are installed, containing cavities for the formation of two castings of the same shape and size, and a common gating system made in the upper mold half, moreover, the pallet is made in the form of two compartments isolated from each other and a perforated plate, on which the said half-molds with the molding mixture are installed, while the halves of the mold are made with pricks in the molding sand for blowing the castings with gas, each of the compartments is made with the possibility of connecting with the device for supplying and gas supply control, and the lower mold half is equipped with a heat-insulating partition dividing the lower mold half into two identical autonomous segments.

The offered equipment allows to study the influence of differentiated cooling modes on the structure and mechanical properties of cast iron castings.

The division of the lower mold half into two autonomous segments, as well as the presence of two independent compartments for supplying different gases, makes it possible to regulate the cooling rate of the resulting castings in the desired directions (increasing or slowing down the cooling rate). To increase the efficiency of gas purging and create favorable conditions for its removal, it is envisaged to perform pricks, both in the lower and in the upper mold half. Also, the division of the lower mold half into two identical autonomous segments makes it possible to use different compositions of filling and facing mixtures to change the heat dissipation and other characteristics.

Foundry equipment for investigating the solidification of castings makes it possible to mold two castings - control and experimental, which are located in different heat-insulated segments of the lower half of the mold with a different composition of the molding mixture. Control and experimental castings are provided with different cooling conditions, which allows obtaining accurate experimental data for analysis.

FIG. 1 shows a casting tooling for investigating the solidification of castings - longitudinal section. FIG. 2 shows a top view of the lower half of the casting tooling for investigating the solidification of castings. FIG. 3 shows the cooling curves of the test and control castings.

Foundry equipment for investigating the solidification of castings contains a pallet 1 made in the form of two compartments 2 isolated from each other, equipped with gas supply devices - fittings 3 with reducers 4 to control the gas supply. A perforated plate 5 (gas divider) with seals for a sealed installation of a casting mold is installed on the pallet, consisting of the lower half of the mold 6, divided by a heat-insulating partition 7 into two identical autonomous segments, and the upper half of the mold 8, which form cavities for the formation of castings 9. General sprue- the feeding system is connected to both casting cavities 9, made of the same shape and size and surrounded by the same molding (facing) mixtures 10 in the medium of the filling mixture 11. The general gating-feeding system consists of feeders 12 and sump 13 located in the lower mold floor 6 and sump 13 and, located in the upper floor of the mold 8 of the metal receiver 14, the riser 15 and the funnel 16. In the environment of the facing 10 and the filling mixture 11 in the molds 6 and 8, there are punctures 17, which ensure the efficiency of the gas blowing of the castings 9. To control the cooling rate of the castings in the half molds 6 and 8 the mold is provided for the supply of thermocouples 18.

Foundry equipment for investigating the solidification of castings works as follows.

The melt with a given chemical composition and temperature is poured into a common gating-feeding system, from which simultaneously and at the same speed it enters two cavities isolated from each other by a heat-insulating partition 7, where the castings are formed 9. For each casting 9, an individual solidification mode is assigned and subsequent cooling based on the research objectives.

The cooling mode of each of the castings 9 is regulated by reducers 4 to control and supply gas. The gas accumulates in the compartments 2 of the pallet 1 and under pressure through the perforated plate 5 flows through the layers of the filler 11 and the facing 10 mixture to the castings 9. To ensure effective gas access to the casting and removal from it, the upper 8 and lower 6 floor molds are made of the nips 17. The control of the kinetics of solidification of the metal of the casting is carried out according to the cooling curves recorded using thermocouples 18. This makes it possible to evaluate the effect of various solidification conditions on the structure and properties of the resulting castings from a melt with a given chemical composition and pouring temperature.

As a result, solidification and subsequent cooling of each of the castings occurs under individual conditions. Thus, from a melt of the same chemical composition and pouring temperature, two castings with different structure and properties can be obtained.

Example. Investigation of the influence of differentiated cooling modes on the structure and mechanical properties of gray iron castings.

Cast iron composition, mass. %: carbon - 3.48; silicon - 2.73; manganese - 0.77; phosphorus - 0.055; sulfur - 0.039, iron - the rest). The composition of the filler mixture 11 is sand from the Orlovsky quarry 2K2O ₂ 02 and bentonite clay BS1T ₂ . The moisture content of the mixture was 4%.

Cast iron of a given composition was poured into the stated casting equipment at a temperature of 1400 ° C ± 10 ° C. In the cavities formed by the lower 6 and upper 8 half-molds, castings 9 (control and experimental) are formed, for example, 15 mm in diameter, 120 mm high.

One of the compartments 2 was supplied with compressed air, which was supplied to the experimental casting 9. The air consumption was controlled by a reducer 4. To slow down the cooling rate of the experimental casting, an exothermic carbon-containing additive was introduced into the facing molding mixture 10 - furnace fuel oil M-100 in an amount of 3%. The exothermic additive was activated with compressed air, which, when it enters the mold cavity at the initial moment, cooled it, increasing the cooling rate of the casting in the dendritic crystallization interval, and then excited the combustion reaction of the additive, accompanied by the release of heat. The temperature was recorded using platinum-platinum-rhodium alloy (10% Rh) thermocouples.

The second compartment 2 remained isolated from the blowdown by an insulating partition 7, which allowed the control casting 9 to solidify in the normal mode.

According to the experimental data, the cooling curves of the experimental and control castings were plotted. Mechanical tests of the obtained experimental and control castings showed that the ultimate strength of the metal of the experimental casting (270 N / mm ² ) exceeds the ultimate strength of the control sample (240 N / mm ² ) by 11%. The analysis of the microstructure showed the absence of eutectic carbides in the experimental casting, in contrast to the control.

The results of the experiment carried out on the claimed device make it possible to determine the most suitable conditions for cooling the castings to achieve the required mechanical properties, and the device itself expands the range of studies and improves the accuracy of the results due to the possibility of conducting an experiment under conditions of using an alloy of a single chemical composition (the identity of which is difficult ensure during the experiment with successive pouring) and pouring temperature.

Thus, the casting equipment for investigating the solidification of castings, consisting of forming cavities for the formation of castings of the same shape and size of the upper and lower mold halves, with punctures made in them for blowing the castings with gas, installed on a perforated plate above a pallet made in the form of two isolated from each other compartments, each of which is equipped with a gas supply and control device, equipped with thermocouples and a common gating system for both castings, in the lower half of which there is a heat-insulating partition that divides the lower half of the mold into two identical autonomous segments allows you to expand the range of studies and increase the accuracy of the results obtained ...

Claims (1)

Foundry equipment for investigating the solidification of castings, containing a pallet on which the upper and lower mold halves with thermocouples and molding sand are installed, containing cavities for the formation of two castings of the same shape and size and a common gating system made in the upper mold half, characterized in that the pallet is made in the form of two compartments isolated from each other and a perforated plate on which the said half-molds with the molding mixture are installed, while the halves of the mold are made with pricks in the molding mixture for blowing the castings with gas, each of the compartments is made with the possibility of connecting with a device for supplying and controlling the supply of gas, and the lower mold half is equipped with a heat-insulating partition dividing the lower mold half into two identical autonomous segments.

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