SU1000856A1 - Device for investigating film material permeability - Google Patents

Description

(W) DEVICE FOR INVESTIGATION OF THE PERMEABILITY OF FILM MATERIALS

The invention relates to instrumentation engineering, in particular, to devices for testing the aging and durability of film samples and sheets of materials based on high molecular weight compounds when subjected to deforming means and penetrating media. The well-known test cell for aging and durability of polymer samples in a liquid or gaseous working medium contains a chamber, a device for securing a sample in a chamber, a device for limiting the deformation of a test sample, an opening in the chamber for entering the working medium Cl} It is impossible to create a uniform deformation of the sample. Famous cell for aging test samples of films and sheets based on high molecular weight compounds In a liquid or gaseous working medium, comprising a detachable housing with two chambers formed by the housing walls and the test specimen fixed in place of the housing connector; , the holes in one of the chambers for the input of the working medium, in the other for the output of the medium penetrated through the sample, each chamber is made in the form of a channel having the shape of an Archimedes spiral, the channels The wives are mirrored relative to each other in the silicon plane of sample 2. The disadvantage of this cell is the mirror arrangement of the channels of the chambers relative to each other, which prevents deformation of the sample in areas in contact with the working medium. This reduces the reliability of the results of test samples.

31000856

The closest to the proposed technical essence and the achieved result is a device for the study of the permeability of film materials, containing a split casing, formed by two chambers equipped with nozzles, and a means of deforming the C 3 sample. on the basis of a com- cordial compound in the conditions of their deformation while simultaneously acting on one or both sides of the sample of the working medium. However, this device does not allow for uniform deformation of the sample. This leads to the fact that the most deformed portions of the sample become older faster than other sites, reducing the reliability of the test results. In addition, the shape of both chambers (cylindrical) leads to the formation of stagnant zones with an increased or decreased concentration of the substance in them, a change in the composition of the medium in contact with the image, disrupting the process of mass exchange. This again leads to a decrease in the reliability of the test results. The purpose of the invention is to increase the reliability of the test results by ensuring that the sample is evenly deformed and the stagnant zones in the chambers are eliminated. This goal is achieved by the fact that in a device for studying the permeability of film materials, comprising a detachable body formed by two chambers equipped with nozzles, and a means of deforming the sample, the cavities of the chambers are shaped as channels having the shape of an Archimedes spiral, the channels are offset from each other by half a step. spirals, form a gap for placing the sample and serve as a means of its deformation. In addition, each of the chambers is provided with an additional nipple. FIG. 1 shows a cell, a general view of FIG. 2, a diagram of the arrangement of the spirals of both cells of the cell. A device for testing the aging and durability of samples of films and sheets of materials based on high molecular weight compounds during deformation and permeability of liquid and gaseous working media contains

Claims (3)

detachable body 1 with two chambers 2 and 3 formed by the walls of body 1 and test sample k fixed at the place of connector 1, device 5 for fastening sample k at the place of connector body 1, device 6 for deformation of test sample k, hole 7 in the chamber 2 for entering the working medium, the hole 8 in the chamber 3 for taking out the medium penetrated through the sample t, the hole 9 connecting the chamber 2 with the device for moving the working medium, the hole 10 in the chamber 3 for introducing the carrier moving the medium penetrated through the sample k to detect de- vice. Cameras 2 and 3 are made in the form of channels 11 and 12, having the shape of an Archimedes spiral, channels 11 and 12 are displaced relative to each other in the plane A-A of the attachment of sample k by half a step in the spiral, the magnitude of which is the same for cameras 2 and 3. The plane The B-camera 3, in contact with the sample, consists of the plane A-A of the sample fastening. The device works as follows. The test sample k is fixed in place of the connector of the housing 1 using the device 5 for fastening the sample k, for example a cap nut, at the same time deforming the sample 4 using the device 6, whose walls of the housing 1 of the chambers 2 and 3 are included when attaching the sample k with device 5 channels 11 and 12 of chambers 2 and 3 In the opening 7, the working medium is introduced, moving. to the opening 9 by means of a device for moving the working medium, for example a pump. A carrier, such as an inert gas, is introduced into the opening 10, which transports the medium that has penetrated the sample and can flow to a detection device for qualitative and quantitative analysis, such as a chromatograph. The amount of deformation of the sample is determined by the distance between the plane B-B passing through the contact points of sample 4 with the wall of body 1 of chamber 3, and the plane of attachment of sample i. The device may have the following dimensions. The pitch b of the Archimedes spiral of chambers 2 and 3 is 1-20 mm. The radius of curvature of the arch of the channels 11 and 12 of chambers 2 and 3, made in the form of a sphere or an ellipse, is 0.5-10 mm. The radius of curvature of the walls of the housing 1 of chambers 2 and 3 in contact with sample j is 0.25-3 mm. The plane B-B passing through the contact points of the sample k with the wall of the housing 1 of the chamber 3 is separated from the plane A-A of the sample fastening k -th magnitude 0.01 Holes 7 and 9 and holes 8 and 10 are interchangeable, t, e. chamber 2 can be used to collect the medium penetrated through sample k, and chamber 3 for the working medium. In addition, chamber 3 can be filled with the same or a different working medium as chamber 2 ". In this case, the cell serves to test the sample for aging in the deformed state under bilateral exposure to the working environment. In the proposed device, the sample is aged in the deformed state under one- or two-sided exposure to the working environment. The aging process and the durability of the sample can be determined by changing the composition of the medium in chamber 3, which characterizes the parameters of mass transfer of the sample, as well as changes in physical-mechanical and physical-chemical properties. specimen characteristics. The proposed device allows you to create a uniform deformation of the test sample, since the ratio of the length of the contact line of the sample k with the walls of the body 1 of chambers 2 and 3 to the sample area, which is the criterion of the uniformity of sample deformability, is significantly larger than that of the prototype. The same step of the Archimedes spiral turns ki the same deformation at each turn of the spiral. The implementation of the chambers in the form of a channel having the shape of an Archimedes spiral with a spherical or elliptical vault makes it possible to eliminate stagnant zones and thereby increase the uniformity of the composition of the medium in contact with the sample. This contributes to the stabilization of the process of mass transfer. Thus, the proposed device allows increasing the reliability of the test results by more evenly deforming the sample and eliminating stagnant zones in the chambers. An apparatus for examining the permeability of film materials, comprising a split housing formed by two chambers equipped with nozzles, and a means of deforming the sample, characterized in that, in order to increase the reliability of the research results, the cavities of the chambers are in the form of -Charts having the shape of an Archimedes spiral, the channels are displaced relative to each other by a half-step of the helix and form a gap for placing the sample and serve as a means of its deformation. A device according to claim 1, characterized in that each of the chambers is provided with an additional nozzle. Sources of information taken into account in the examination 1.Kretova L.I. et al. Method for the study of the permeability of the diffusion of gases through a stress-strain polymer film. M., - Plastics, 1968, ff 1, p. 68 2. USSR Author's Certificate No. 209825, class, G 01 N 15/08, 1968. 3. Manin V, N. and Gromov A, H. Physico-chemical resistance of polymeric materials under operating conditions. Chemistry, 1980, s, 209 (prototype). B-6 A-A