SU1056004A1 - Device for determination of material gas permeability - Google Patents

Abstract

A DEVICE TO DETERMINE THE GAS PERMEABILITY OF MATERIALS, containing a sealed chamber. In which there are holes for gas inlet and outlet, equipped with a lid and a stem. one end connected to the chamber lid, and the other, blind end rigidly connected to the rod, the rod being made in the form of a glass, the bottom of which is connected to the sample, and the upper inner part is supplied It is equipped with two profiled inserts, the lower screw surfaces of which are connected to the bellows through bearings, fingers and tgu.

Description

The invention relates to a measuring technique, is intended to determine the gas permeability of solid materials and can be used to study the processes of diffusion of gases in solids. A device for studying the diffusion of gas in solids is known, which includes a sealed enclosure in which a gas chamber is placed communicated with a high source of gas. pressure, a hollow sample mounted in a gas chamber, wherein the sample cavity is in communication with the gas pressure measurement system l. The drawbacks of the device are that the amount of gas diffusing through the sample wall depends not only on the magnitude of the voltage in the sample wall material, but also on the value of the pressure in the gas across. that does not allow to obtain the correct dependence of the magnitude of the value of the gas diffusing through the wall of the sample of the magnitude of the stresses. A device is known for determining the gas permeability of polymers in a state of comprehensive compression; comprising a housing with a cavity communicating with the medium supply system and the 2J measurement system. The disadvantages of this device are the inability to create tangential stresses in the sample. In addition, the use of the device is difficult in the study of solid porous materials. The closest in technical essence to the invention is; A device for studying the process of diffusion of gases in solids, containing a sealed chamber in which holes are made for the input and output of gas, equipped with a valve and a rod. The rod is rigidly connected to the test specimen to create a deforming load. The load is transferred to the sample along the vertical axis of the rod. Uniaxial stretching is transmitted to the sample by means of a rod. In this case, with the help of a special system, the amount of gas produced through the walls of a hollow deformed sample is measured. The stress arising in the sample wall as a result of the effect of gas pressure is significantly lower compared to stresses caused by mechanical deformation of the sample. Thus, by means of a known device, it is possible to determine the gas permeability of materials under uniaxial stress state sQ. However, at present, to solve a number of technical problems, it is necessary to know the characteristics of the gas permeability of materials under conditions of a complex stress state. Said known device does not make it possible to solve the problem, since the sample material experiences only uniaxial stretching. The purpose of the invention is to enhance the functionality of a known device by creating a complex stress state in a sample material. The goal is achieved by the fact that in the device for determining the gas permeability of materials, containing a sealed chamber in which there are holes for gas inlet and outlet, equipped with a lid and a stem, a bellows is installed coaxially in the cavity of the chamber, one end connected to the chamber lid and the other end the end is rigidly connected with the rod, the rod being made in the form of a tube, the bottom of which is connected to the sample, and the upper inner part is provided with two profiled inserts, the lower screw surfaces of which The bearings, pins, and belts are connected to the bellows. The guiding surfaces of the chamber lid and stem are made in the form of planes installed with a gap relative to each other. In addition, the device is equipped with a heater that allows you to set the required sample temperature. FIG. 1 shows the proposed device, a general view of FIG. 2 view A in FIG. 1J in FIG. 3 shows a section in FIG. 1} in FIG. 4 diagram of the forces acting on the sample. : The device contains a sample 2 rigidly fixed on the base 1 of the hermetic chamber, the upper end of which is rigidly connected to the bottom of the glass 3, the upper inner part of which is provided with profiled inserts 4. Bearings 5 connected through fingers 6 of b 6 of 7, rest on the helical surface of the profiled inserts 4. Ta 7 is a rigid link between the bearings 5 and the bottom 8 of the bellows 9. The bottom 8 of the bellows 9 is rigidly connected to the rod 10, which is a continuation of the pull 7 and has in its upper part guides bones. The planes of the rod 10 are positioned relative to the guide planes of the cover 11 of the sealed chamber with a gap in which the rolling bodies 12 are placed. The second end of the bellows is rigidly connected to the lid. 11, which is hermetically connected to the housing of the chamber 13. The tightness of the housing is provided by gaskets 14. The heating of sample 2 is carried out using a heater 15. The gas is supplied under pressure through the inlet

Claims (1)

DEVICE FOR DETERMINING GAS PERMEABILITY OF MATERIALS 43, enclosing a sealed chamber., In which openings are made for gas inlet and outlet, provided with a cap and a rod, characterized in that, in order to expand the functionality by creating complex deformation of the sample, a bellows is installed coaxially to the chamber cavity, connected at one end to the lid of the chamber, and the other, a blind end, is rigidly connected to the rod, and the rod is made in the form of a glass, the bottom of which. It is connected to the sample, and the upper inner part is equipped with two profiled inserts, the lower screw surfaces of which are connected to the I bellows through bearings, fingers and thrust. > 1 1056004 2