SU963687A1 - Method of determining specimen deformation - Google Patents

Description

(full axial expansion of the specimen.

The common disadvantages of both known methods are the difficulty of using the results of research for designing and manufacturing the heated equipment, which is characterized by high accuracy. These parameters include pripuoka snap and slope, which will be different for real core mixtures.

The aim of the invention is to obtain accurate data on the size and shape of the slopes.

This goal is achieved by the fact that in the method of determining the deformation of the mixtures during the manufacture of the equipment in the heated equipment, including filling the equipment with the mixture, heating and removing the obtained sample of the mixture from the equipment, after performing the operation of extracting the sample it is re-installed in the equipment, measuring the distance, and which is the sample from the tooling, and deformation is determined by the tangent of the angle of the forming slope of the tooling.

The method is explained in FIG. 1 .and 2 and is carried out as follows.

The mixture is inflated into the conical cavity of the heated box 1 with a molding inclination angle of not more than 2 °, since in real tooling the angles greater than 2 ° practically do not occur. After sample 2 is cured in a box at a fixed temperature for the required process time, the indicator 3 is used to measure the position of the upper plane of the sample in a snap. Then, the sample 2 is pushed out of the box 1 by a fixed force until the contact with the cavity of the box completely stops (the pushing force is reduced to zero), after which the pushing is stopped. The sample returns to the snap-in, but due to its expansion it cannot fully return to its original position. With the help of the indicator, the distance to which the sample protrudes from the tooling (b) (Fig. 2) is measured. By multiplying this value by the tangent of the angle of the mold inclination of the box, the absolute value of the sample strain is obtained.

When the sample is heated, the mixture hardens and tends to expand, but it is hindered by its expansion from the tooling side. Extending the sample is difficult. When removing the sample, wipe out for some time in contact with the tool cavity. The reason for this is the free extension of the sample. Using known methods to measure this

deformation is not possible because they involve the determination of the deformation of samples under conditions of free expansion during heating. Rod measurements after some

the time after extraction will lead to a significant error, since the sample is rapidly cooled in air and reduces its size.

Example. As a test mixture, a mixture was used, where quartz sand as a filler was mixed with various phenol-alcohol mixtures. A laboratory-type sandblasting machine was used to fill the equipment mixture. The mixture was blown into the equipment at a pressure of compressed air of 0.5 MPa | And cured under the action of heat of electric heaters at 240 ° C for 90-150 s. Then the sample was extracted and the strain of the mixture was determined. The relative deformation of the mixture in this case was 0.3-0.8% (depending on the curing time and the content of the phenol-alcohol composition).

The economic effect of carrying out measures using the results obtained when applying this method will be 3-5 rubles. per tonne year of pouring. The invention, in comparison with the existing methods, will provide the possibility of obtaining more accurate data for designing your equipment, as well as determining the extraction effort and size.

rod after removal for different mixtures.

Claims (2)

1. Medvedev Ya. I. and others. Technological testing of molding compounds, M., 1973, with. 203-205. 2. In the same place 204-205. FIG. 2