SU663474A1 - Method of detecting organic compositions on surface of granular materials - Google Patents

Description

the surfaces of the granular materials and for the sample under test, measure the height of the capillary rise of the liquid in the measuring tube, which is pre-immersed in a container with a liquid medium with a shutter speed of 25-30 min, and determine from the previously obtained dependence the amount of organic compounds on the surface of the granular materials of the sample.

The analysis time can be shortened by subjecting the liquid medium to ultrasonic vibrations.

FIG. 1 shows a device for implementing the proposed method; in fig. 2 shows a plot of the height of the capillary rise of the liquid in the tube on the amount of organic compounds on the surface of the sand (curve for zircon sand, 3 is the curve for quartz sand.

Arbitrary amount of mate studied; Rial - the sample is poured into transparent graduated tubes (300-400 mm long and 6-8 mm outer diameter) with a moisture-permeable stopper 2 at one end. Next, lightly tapping a wooden rod (not shown) on the tube until the column of granular materials of the test sample ceases to settle. Thus, in each tube 1 will be the same density, packing a granular material.

Tubes I are pre-rinsed in distilled water and dried at 100-105 ° C. In the absence of graduation on the walls of the tubes, lines 3 with divisions are strengthened. In this case, the zero division on lines 3 must be combined with the beginning of the column of granular material in tube 1.

As a moisture-permeable plug 2, cotton wool or another moisture-permeable material can be used. One end of the tube can be closed with a grid, the cell size of which is smaller than the fraction of the test material so that the latter will not die.

The test tube filled with the test sample 1 is fixed on the stand 4, which is mounted on the rack 5. The stand is located above the container 6 so that the gap between the bottom of the container and the base of the tube is 30-40 mm. A liquid is poured into the container 6, and the mirror is combined with the zero mark of the scale of the line 3.

The proposed method is carried out as follows.

The operator fills the tube 1 with the test sample (for example, sand), sets the tube on stand 4 and pours the liquid into the tank 6 up to the zero mark on the scale of the ruler 3, after which it marks the time. After 25-30 minutes, a wet column of sand is counted in the tube 1 and according to the schedule (see Fig. 2) the instrument is found

the corresponding height of the resulting amount of organic compounds on the surface of the sand.

The graph is preliminarily constructed in the laboratory and is the dependence of the height of the capillary rise of the liquid (N.mm.) in the tube on the amount of organic compounds on the surface of the sand, expressed as the amount of loss on ignition (%, PPP).

The tube 1 is filled with compacted sand so that thin, hair-like channels (capillaries) are formed between the grains of sand. The state of the sand surface determines the property of the walls of these channels, i.e. if there are organic contaminants on the sand grains, such a wall is not wetted and the water in the tube rises to a small height. If the grains of sand are clean of organic matter, the water in the tube rises to a greater height.

The determination of the dependency values is carried out as follows. Take samples of waste sand with a known; the amount of organic inclusions on the surface of the sand grains, determined by the loss on ignition, by one-time calcination and weighing before and after calcination. Next, the sand of these samples is poured into glass tubes to determine the height of the capillary rise of water and to obtain the values of the dependence of the height of the capillary rise of water on the loss of calcination. For each material studied, its dependence is plotted in the form of a graph or a table, which are glued on a special place of the device. The device is in operation at the site in the workshop.

The proposed method was tested in the KTIAM foundry laboratory during the regeneration of quartz and zircon sand from waste sand – resin mixtures.

Studies have found that the height of the wet sand column after 25–30 missions practically does not change if the fluid into which the tubes are lowered is in a stationary state. When ultrasonic vibrations are applied to the liquid, the height of the wet sand column is reached within 10-15 minutes.

The method allows rapid analysis to control the quality of the product obtained during the regeneration process; Process deviations can be quickly noticed and eliminated. The total analysis time is 1.5-2 hours, and 4-6 analyzes can be performed in one shift.

In order to control the quality of the regenerate in the process of thermal regeneration, rapid analysis is required for the residual content of organic inclusions, since otherwise a defective molding mixture is obtained.

Claims (1)

1. GOST 2642-1-71, Materials n refractory products. Methods of chemical analysis of refractory clay, kaolin, chamotte, graphite and semi-amber products, quartzite and silica products. Item 3. Determination of loss on ignition. H. 111 2kGZW150 JIO30