SU567115A1 - Method of determining the rigidity of polymer articles - Google Patents

Description

one

The invention relates to the study of the properties of materials and products made from them, namely their rigidity, and is intended for testing products made from polymeric materials.

A known universal machine for investigating the properties of polymeric materials, comprising a base, a deforming mechanism, placed on the base, measures of forces and deformations, associated with the deforming mechanism and the base 1.

However, such a machine does not allow testing the stiffness of product samples under the combined effect of external factors; temperature, vacuum, radiation, etc. due to the large size and complex structure. In addition, it does not provide sufficient performance during the Testing, since it has such a deforming mechanism and gauges that can test only one specimen.

The closest - to the technical essence of the invention is a device for determining the stiffness of products made of polymeric materials or rubber, containing a base, a screw deforming mechanism located on the base, a force meter and an electrocontact strain gauge associated with the deforming mechanism and base 2.

The test performance of a known device is low, since the strain; the V1Cating mechanism, the force meter and the strain alarm are not adapted.

for testing multiple samples at the same time.

The aim of the invention is to increase test performance.

For this, in the proposed device, the deforming mechanism is made in the form of an axis fixed on the base with the possibility of rotation, several disks fixed on the axis at a given distance from one another, opposite planes of which are not parallel, rings placed in pairs between the disks to affect the tested products, thrust ball bearings, placed one by one between the rings and the discs, the device is equipped with gauges

efforts, their total number is equal to the number of pairs of rings and each of them is connected to one ring of each pair.

In FIG. 1 shows the proposed device; in fig. 2 is a section along A-A in FIG. one.

The device comprises a base 1, made in a detachable frame structure. On base 1, an axis 2 is fixed, which can rotate and which is associated with an electric motor 3, also placed on base 1. On axis 2 with a predetermined spindle, there are fixed disks 4, between which pair rings 5 are placed. Pair rings 5 are supported on disks 4 through the roller thrust bearings 6. Since the opposite planes of the disks 4, on which the bearings 6 lie, are not parallel to each other, the planes of the rings 5 facing each other are also non-parallel. The device is equipped with several strain gauge force meters 7. Force meters 7 at one end are connected to base 1, and the other to one ring 5 of each pair.

The device works as follows.

Before testing, the device is assembled by placing the test articles 8 between the rings 5. Then it is placed in the chamber. The motor 3 is connected to a power source, and the meters 7 are connected to the metering equipment.

When applied to the electric motor 3 of the supply voltage, the axis 2 together with the disks 4 begins to rotate. In this case, the rings 5 remain motionless, as the force meter 7 keeps them from rotating. Since the opposite planes of the disks 4 are not parallel, as they rotate, the opposite surfaces of the rings 5 will perform oscillatory movements relative to each other, moving closer to one another. parts opposite them. As a result, the test items 8 are periodically compressed. Moreover, when one of them is compressed, the other is in its original state. The amount of compression of the products is constant and depends on the angle between the non-parallel opposite surfaces of the disks 4. The value of the preliminary initial compression of the products depends on the pitch between the disks.

The deformation of the product 8 by a certain amount, given the geometric dimensions

discs 4, causes the load on the bearings 6. The magnitude of this load will be proportional to the rigidity of the product. Under the influence of the load in the bearings b, a moment of friction appears, which through the rings 5 is perceived by the gauge 7. As a result, the force measured by the gauge 7 is a measure of the rigidity of the products 8.

Claims (2)

1. Methods of testing, monitoring and research of building materials. Ed. A.T. Tumanova. M., "| Mashinostroenie, 1973, Vol. P1, p. 114, fig. 2 2. US patent No. 3550441, cl. G 01N 3/08, 1968. CPU. Aa -Sri .g