SU260273A1 - INSTALLATION FOR THE ESTIMATION OF THE DEGREE OF THE CLOSEDNESS OF THE CELLS OF RIGID FOAMS - Google Patents

Description

Instrument designs are known for assessing the degree of closure of the cells of foams consisting of a calibrated vessel, a manometric system and a sealed chamber for the test samples. By repeated selection I level with the air volumes in the working chamber and the calibration system. The equalization of the volumes of the systems is controlled by the pressure drop of the gas in the systems when they are created at the same vacuum.

These instruments are characterized by high labor intensity during testing, low labor productivity, and also subjective errors of the laboratory during manual installation and measurement of volumes and pressures are possible.

In order to shorten the duration and laboriousness of testing and reducing the number of operations in the measurement, it is proposed to use a Volume meter, which is made in the form of two communicating vessels filled with mercury. One of them is connected to a cylinder for fixing the initial volume of the working system. The second vessel above the mercury is filled with a low specific gravity liquid, such as butyl alcohol, and is connected through a manometric graduated inclined tube with a cross section substantially smaller than the vessel section to an auxiliary vessel for expanding excess gas, which in turn is connected to a sealed chamber.

This volume meter simultaneously creates a vacuum in the chamber and measures the volume of closed cells and pore walls. This makes it possible to determine the specified volume in a ONE measurement, which reduces the time and laboriousness of the test.

The installation (Fig. 1) consists of a thick-walled pressurized chamber 1 for sample 2.

The required small vacuum in the chamber is created due to the difference in the levels of mercury 3 and normal butyl alcohol 4 in the vessels 5 n 6. The readings at the installation are measured according to the position of the alcohol level at

the scale of the measuring tube 10. In order that a significant change in the level of liquid in the tube does not cause a strong change in pressure in the chamber /, normal butyl alcohol, the density of which is less than the density of mercury, is poured into vessel 6 from above; in addition, the ratio of the cross-sectional area of each of the vessels to the cross-sectional area of the tube is taken to be 900: 1, which ensures high sensitivity of the installation. Initial state of the working check mark //. Auxiliary vessel 12 serves to expand the excess gas in the chamber. The instrument is calibrated by reliance on the readings (mm of the instrument on the magnitude of the known volumes (cm-} of samples introduced into the chamber / (Fig. 2).

The camera, after being placed in its image / ca, is tightly closed with a lid. With the faucet 8 open and the piston 9 closed with a piston, by aligning the level of alcohol at the // mark, the initial state of the working system is established. At this point, the valve 8 is closed, and the crane 9 is opened. The level of alcohol drops and after some time reaches the optimal position at which the readings of the instrument are read. According to the trace curve (Fig. 2), the volume occupied by closed cells and pore walls is found. The error is 1% of the limit value of the operating scale of the instrument.

Subject invention

A device for assessing the degree of closure of the cells of rigid foam plastics, consisting of a sealed chamber for the sample and a measure of the volume of closed pores and wall-pores, characterized in two interconnected, inter alia, vessels filled with mercury, one-OM of which a liquid with a small specific weight, for example butyl alcohol, is mercury, and which is bound

through a graduated gradient sloping tube with a cross section substantially smaller than the cross section of the vessels, with an auxiliary vessel for expanding the excess gas, connected to the chamber, and the second is connected to the cylinder for setting the initial volume of the working system.

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