SU915938A1 - Pycnometer - Google Patents

Description

The invention relates to laboratory equipment, namely, devices for determining the density of solids and liquids, mainly for

substances with significant linear

sizes or not subject to crushing. ^{5 * * 8}

8 equally, the device can be used to determine the density of non-compact solids and various ’. liquids.

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Known pycnometer to determine the density of substances, in particular gaseous, including a measuring vessel with a wide neck and a glass tube with a plugged end and with a hole on the side surface of the tube (1].

The disadvantage of the known pycnometer is the difficulty in manufacturing and use, and in addition, this pycnometer cannot determine the density of solid and liquid bodies due to the hole in the side surface of the cork.

2

The closest to the proposed is the pycnometer consisting of a wide-mouth container with a label and a hollow plug (2].

The disadvantage of the known pycnometer is the duration and complexity of determining the density of the investigated substances with increased linear dimensions. In practice, in these cases, the sample is subjected to pre-crushing. The expansion of the mouth for the passage of large particles into the measuring volume is not allowed, since this leads to a significant decrease in the accuracy of the determinations associated with bringing the pycnometric liquid to the mark.

The purpose of the invention is the speed and convenience of determining the density of the investigated substances while maintaining the accuracy of determination.

This goal is achieved by the fact that the tube is installed in the throat of the tank with the formation of an annular capill 9

of the polar space and is made with a fuzzy end placed below the square and.

The nominal volume of the proposed pycnometer can be as usual (5’50 ml); the diameter of the neck is determined by the linear dimensions of the solid to be determined. The outer diameter of the tube is chosen to be less than the diameter of the neck, but to maintain the accuracy of the definitions it must form an annular gap with a neck in the range of 2-3 mm. This size is not an essential distinctive and defining element of the structure, since it is chosen from specific conditions.

The muffled end of the plug ends with an arbitrary constriction. The latter is a convenient structural element, since it serves as a liquid condenser when removing a plug from a pycnometer and simplifies the process of its selection when bringing the liquid to the mark ”

In the proposed device, the excess liquid is removed from the outer surface of the tube or from its narrowed part "

The drawing shows the proposed ₃₀ pycnometer.

The pycnometer includes a measuring capacitance 1 with a wide neck 2, a glass polished cork 3, a mark 4 and a muffled end 5. The latter enters the neck and ends below the mark with an arbitrary constriction. All elements of the device are made of glass.

Work with pycnometers determines40

known rules. The pycnometer is pre-calibrated. To this end, the dried pycnometer is weighed, the tank 1 is filled with liquid with a known density (water) to a level of ₄₅ 5 "7 mm below mark 4 and closed with a stopper 3 with a plugged end 5. The fluid in the neck 2 rises above the mark . Then several times remove the plug with a process and filter paper remove excess fluid,

5938 4

which covers the process until the meniscus of the liquid with the process immersed in it reaches mark 4, the pycnometer is weighed again and ₅ each of the weight of water with a known density is determined at a given temperature, the working volume of the pycnometer.

To determine the density of solids with increased linear dimensions, a calibrated pycnometer in the container 1 is loaded with a substance and filled with a pycnometric liquid to a level below the mark. All other operations are performed in the same sequence as in the calibration of the pycnometer. Knowing the volume of the pycnometer, the weight of the substance and the weight of the pycnometric liquid, the density of the solid phase is determined from the ratios known for conventional pycnometers.

If necessary, vacuuming or temperature control of the pycnometer these operations are carried out in the same way as for known devices.

25 The proposed pycnometer can also be used to determine the density of fibrous, porous, powdered and highly viscous substances.

Claims (1)

Claim A pycnometer for determining the density of liquid and solid bodies, containing a wide-necked container with a label and a hollow plug, is different in that, for the purpose of quickness and convenience of determining the density of the test substance while maintaining the accuracy of determination, the plug is installed in the container throat with the formation of annular capillary space with the end muffled below the mark.