RU2390756C1 - Method of determining fluidity of hydrophobisated fraction of ammonium perchlorate - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: hollow cylinder is filled and a hydrophobisated fraction of ammonium perchlorate is poured out of it. The hollow cylinder with diametre of 40 mm and height of 100 mm is placed with its axis at the centre of a plate with diametre of 250 mm. On the plate there are marking circles with diametre ranging from 100 mm to 200 mm every 10 mm from the centre. Fluidity is determined from the average diametre of the edge of the hydrophobisated fraction of ammonium perchlorate dispersed into a circle.

EFFECT: design of a rapid method for determining fluidity, creating conditions for continuous preparation of a hydrophobisated fraction of ammonium perchlorate.

2 dwg, 1 tbl

Description

The invention relates to the field of determining the physicomechanical properties of powder materials.

The proposed method can be used in industries, the enterprises of which are processed powder materials.

In this area, the most common method for assessing one of the most important indicators of fluidity (flowability) of powdered materials is the angle of repose.

Known analogues for methods for determining the angle of repose of powdered materials AC SU1226163 IPC G01N 11/00 of July 2, 1984, patent US 3665768 IPC G01N 11/00, publ. 05/30/1972

However, methods for determining the angle of repose of the above patents have certain disadvantages, i.e. cannot be applied to all powdered materials. According to their properties, they are in the gap between solids and liquid. On the one hand, in a state close to solids, powdered materials form a strong structure and lose flow properties. In this state, the powder materials, when analyzed by known methods, do not form an angle of repose, i.e. practically do not crumble. On the other hand, in a state close to liquids, powdered materials having very weak bonds between particles scatter along a horizontal plane without forming an angle of repose.

At present, ammonium perchlorate remains one of the main components in the composite solid rocket fuel (STRT) compositions used as an oxidizing agent. It is a water soluble substance. In the technological process of preparation and processing, ammonium perchlorate undergoes various operations related to transportation, dosing, mixing, storage in containers, accumulation and consumption of them. For the rhythmic and uninterrupted operation of equipment connected in a single complex, with the performance of these operations, it is required that ammonium perchlorate possess flowing properties.

For water-soluble substances with the ability to adsorb water vapor from ambient air, which include highly dispersed fractions of ammonium perchlorate, the dominant role in the hardening of the structure is played by capillary forces caused by the presence of capillary moisture.

In order to exclude the effect of capillary moisture and impart flowing properties to the finely dispersed fractions of ammonium perchlorate, the hydrophobization method was developed, which is described in patent RU No. 2211207 IPC С06В 21/00, С05С 3/00, С06В 29/22, 45/32.

Hydrophobization is carried out by treating ammonium perchlorate with methyltrichlorosilane, while methyltrichlorosilane vapors envelop particles of ammonium perchlorate and interact with moisture adsorbed on their surface to form an alkylsiloxane film.

The quality of the hydrophobized fraction is controlled by determining in the analytical laboratory the specific surface, hydrophobicity and content of the alkylsiloxane coating. However, these indicators do not fully characterize one of the technological properties - fluidity. This is evidenced by the available facts of obtaining a hydrophobized fraction with insufficient fluidity with satisfactory performance on the specific surface, hydrophobicity and content of the alkylsiloxane coating.

In this regard, the development of an express method is required to determine the fluidity of ground ammonium perchlorate directly in the process of hydrophobization before performing analyzes of the specific surface, hydrophobicity, and content of the alkylsiloxane coating.

In the article "Some physical and mechanical properties of bulk materials used for the manufacture of rubber compounds" by Anjana BT, Kashirtseva VT, published in the journal "Rubber and Rubber" No. 3, 1966, pp. 12-15 , describes a method for determining the angle of repose, which is taken as a prototype.

In this case, the hollow cylinder with a diameter of 450 mm and a height of 750 mm is filled to the top with the test material, then the cylinder is lifted up by a cable and block. From the measured data of the height and diameter of the formed cone, the angle of repose K is calculated, by the formula, λ = arctan 2h / d, where h is the height of the cone, mm; d is the diameter of the cone, mm

However, this method for determining the fluidity of the hydrophobized fraction is unacceptable because of:

- a significant amount of material used for testing;

- it does not form when the rash enters, but disintegrates.

Ammonium perchlorate refers to explosives that are sensitive to mechanical stress: shock and friction. A characteristic feature of them is that, under mechanical influences, the occurrence of a hotbed with the subsequent rapid spread of the combustion process up to an explosion is possible. In this regard, when performing work on testing explosives, their number is significantly limited.

An object of the invention is to develop a method for determining the fluidity of a hydrophobized fraction of ammonium perchlorate directly in the technological process in order to ensure its manufacturability in further processing with the following operations: dosing, mixing, transportation, storage, reception in containers and expenditure from them, etc.

The technical result consists in the fact that to determine the yield, a hollow cylinder with a diameter of 40 mm and a height of 100 mm is used, which is mounted with an axis in the center of a plate with a diameter of 250 mm with circles on it from 100 mm to 200 mm from the center every 10 mm of fixation the average diameter of the edge of the hydrophobized fraction of ammonium perchlorate scattered in a circle layer after precipitation from a filled hollow cylinder.

The crushed fraction after hydrophobization of ammonium perchlorate acquires greater mobility. The formation of an alkylsiloxane coating from the class of organosilicon compounds simultaneously reduces the coefficient of internal friction in the layer of the hydrophobized fraction, which also contributes to its mobility.

However, unlike liquid, in the layer of the hydrophobized fraction of ammonium perchlorate there are electric and mechanical forces that limit the limit of spillage on a horizontal surface. This property allows us to take the diameter of the circle, within which the layer scatters when removing the enclosing walls, as a parameter for the flowability of powdered materials. As indicated above, for the hydrophobized fraction of ammonium perchlorate, for safety reasons, it is necessary to have the smallest possible amount of it during the performance of test work.

Table No. 1 shows the data on the flowability testing of the hydrophobized fraction of ammonium perchlorate at different diameters and different cylinder heights.

Table number 1. Cylinder diameter mm Sample Number The limits of the diameter of the circle of the scattered fraction, cm, with the height of the cylinder twenty thirty 40 45 fifty 60 75 80 one hundred 40 one No experience Not prov. Does not crumble Not prov. Not prov. 160-140 Not prov. 155-175 190-200 2 Not a wire. Not prov. Does not crumble Not prov. Not prov. 110-90 Not prov. 140-155 150-160 thirty one Not a wire. Not prov. Not a wire. 80-60 Not prov. 95-80 100-85 Not prov. Not prov. twenty 2 Does not crumble 40-55 45-60 Not prov. 55-70 Not prov. Not prov. Not prov. Not prov.

According to the development of a method for determining the fluidity of a hydrophobized fraction of ammonium perchlorate, the optimal dimensions of the hollow cylinder were selected: diameter 40 mm, height 100 mm.

The development of the method for determining the fluidity of the hydrophobized fraction of ammonium perchlorate was carried out in the following way.

Around the center of the plate was applied every 10 mm of a circle starting from 30 mm to 200 mm. They took hollow cylinders with a diameter of 20.30.40 mm and a height equal to the diameter and exceeding a diameter of 1.5; 2; 2.5 times, cylinders were mounted on the plate so that the axis passed through the center of the plate. The cylinder was filled with a hydrophobized fraction of ammonium perchlorate and aligned with the upper edge of the cylinder. Slowly raise the cylinder to a level above the height of the cylinder. The diameter of the edge of the hydrophobized fraction scattered in a circle was fixed.

According to tests, it was found that:

1. In all experiments, at a height equal to the diameter, the hydrophobized fraction practically retains the shape of a cylinder with chipped upper edges.

2. At a height exceeding the diameter of 1.5 and 2 times, the hydrophobized fraction scatters in a circle with an insufficiently reproducible diameter.

3. The greatest dispersibility and well reproducible distribution in a circle were obtained on a cylinder with a diameter of 40 mm with a diameter exceeding 2.5 times in height. With a diameter of 40 mm and a height exceeding the diameter by 2 times, reproducibility is worse.

Thus, to determine the fluidity of the hydrophobized fraction of ammonium perchlorate, a hollow cylinder with a diameter of 40 mm and a height of 100 mm should be adopted.

When repeatedly determining the fluidity using a hollow cylinder with the indicated particle sizes, compositions based on the hydrophobized fraction were satisfactorily processed when scattered in a circle with a diameter of 120 to 200 mm. At the same time, for practical use, it is enough to have a plate with a diameter of 250 mm with printed circles every 10 mm in diameter ranging from 100 to 200 mm.

According to the existing technological process, the quality of the hydrophobized fraction of ammonium perchlorate is evaluated by the specific surface, hydrophobicity and the content of the alkylsiloxane coating.

After the production of the hydrophobized fraction, an average sample is taken, which is sent to the central factory laboratory.

However, in practice, there are cases when, at satisfactory values for the above indicators, the hydrophobized fraction has insufficient fluidity for the smooth operation of technological equipment. In this case, there is a need for additional processing of the hydrophobized fraction with methyl trichlorosilane, followed by a physicochemical analysis. Thus, there will be discontinuity in the process with loss of productivity.

The proposed method for determining the fluidity of the hydrophobized fraction eliminates this drawback. It allows in the course of the process to characterize the achievement of the required fluidity of the hydrophobized fraction of ammonium perchlorate.

Using the proposed method for determining the fluidity of a hydrophobized fraction is carried out on the device of figures 1, 2.

At the end of the hydrophobization cycle of the ground fraction of ammonium perchlorate, a sample is taken directly from the apparatus. A hollow cylinder 1 with a diameter of 40 mm and a height of 100 mm is mounted on a plate 2 with a diameter of 250 mm so that the axis of the cylinder coincides with the center of the applied circles with a diameter every 10 mm in increasing order, starting from 100 mm. The cylinder is filled with the selected sample, aligned at the upper edge. The cylinder is raised slightly above its height. In this case, the hydrophobized fraction scatters on the surface of the plate, occupying the area of a circle with a certain diameter, the value of which is fixed in millimeters and taken for fluidity in millimeters. The area of a circle with a certain diameter occupied by a hydrophobized fraction is in direct proportion to fluidity.

According to the available statistical data, the compositions are satisfactorily processed with a hydrophobized fraction of ammonium perchlorate if it is scattered over a circle area with a diameter of at least 120 mm when determined by the proposed method.

A positive factor in the application of the proposed method is that ensuring the fluidity of the hydrophobized fraction guarantees satisfactory results for other indicators: specific surface area, hydrophobicity and the content of alkylsiloxane coating. At the same time, the conditions for the continuous production of the hydrophobized fraction are created, without waiting for the results according to the above indicators, which increases productivity in this phase.

The proposed method for determining the fluidity of a hydrophobized fraction of ammonium perchlorate was carried out with positive results at the Perm State Powder Plant.

Claims (1)

A method for determining the fluidity of a hydrophobized fraction of ammonium perchlorate, including filling a hollow cylinder and pouring out a hydrophobized fraction of ammonium perchlorate from it, characterized in that the hollow cylinder with a diameter of 40 mm and a height of 100 mm is mounted with an axis in the center of the plate with a diameter of 250 mm with marks marked with circles with diameters from 100 mm and up to 200 mm from the center every 10 mm, the fluidity is determined by the average diameter of the edge of the hydrophobized fraction of ammonium perchlorate crumbled in a circle.

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