SU953566A1 - Method of artificial light ageing of non-metallic materials - Google Patents

Description

The invention relates to the instability of the resistance of materials to radiation, for example, ultra-violet. The known method of light aging of non-metallic materials consists in fixing test samples of materials on a roundabout in the form of a truncated pyramid, rotating a roundabout and influencing samples of materials of solar radiant energy fl3. However, this method does not provide a uniform effect of solar energy on the entire surface of the samples, and its implementation requires certain climatic and meteorological conditions. A known method of testing matter for resistance to radiation is that the sample is locked opposite the radiation source, which has a constant intensity, and rotates around an axis parallel to the plane of the radiation source, according to a predetermined program, while the sample is simultaneously moved in the direction of the radiation source, change the distance between them also according to a given program f2J. The disadvantages of this method are that it can only be used for testing flat samples and parallel beams. This limits the possibilities of the method, and the creation of pop parallel rays imitating solar radiation is associated with certain technical difficulties. In addition, when the sample rotates, its surface is shaded for a while by the support on which it is fixed. This reduces the energy efficiency of the radiation source. The closest to the image of the technical essence and the achieved result is the method of artificial light aging of non-metallic materials, which consists in that the material samples are freely placed in the holder parallel to the horizontal horizontal axis of the tube source from the SS beam and rotate the holder around the latter. 3j. The disadvantage of this method is the irregularity of irradiation of cylindrical samples, since only part of the sample's surface is exposed to radiation, the other part is constantly in the shade during testing. In addition, the known tubular sources of radiation, for example, a quartz mercury lamp, do not provide uniform intensity of radiation in all directions, which in turn causes irregularity of irradiation of the surface of samples mounted around the source. The circuit of the invention is an increase in the uniformity of irradiation of cylindrical specimens by ensuring their translational movement and reducing the influence of defects of the radiation source. This chain is achieved by the fact that according to the method of artificial light aging of non-metallic materials, the fact that material samples are freely placed in the holder parallel to the horizontal axis of the tubular radiation source and rotate the holder relative to the latter, use weights that are fixed on the samples in this way that their center of gravity is shifted relative to the axes of the samples, the radiation source is rotated around its axis in a direction opposite to the direction of rotation of the holder and, at a speed lower than the speed of rotation of the latter, and during the time of the test, provide an integer number of revolutions of the radiation source. The drawing shows an installation for carrying out the proposed method. The installation comprises a base. 1, racks 2 and 3 fixed on base 1, a holder 4 of material samples in the form of a drum mounted on a rack 2 so that its axis is horizontal, the drive 5 of rotation of the holder 4, tubes of the radiation source 6, dispersed coaxial to the axis of the holder 4 and mounted on a rack 3, a drive 7 of rotation of the radiation source 6, a cylinder 8 and a translucent material, such as quartz, located coaxially with the radiation source 6, a fan E directed to the cylinder 8, an electronic clock 10 installed Based on 1, the photodiode t 11 is electrically connected to a quartz clock 10. The method is carried out by the following procedure. 4 One or more cylindrical samples 12 are placed in the holder 4 so that they can freely rotate around their own axis, parallel to the axis of the tubular radiation source 6. On samples 12, weights 13 are fixed in such a way that their center of gravity is shifted relative to the axis of the samples. The holder 4 is rotated uniformly with the aid of the actuator 5 around the source b, which, in turn, is rotated uniformly around its axis with the aid of the actuator 7 in the direction opposite to the direction of rotation of the holders 4 with a speed less than the rotational speed of the latter, and during the test time provides an integer speed of the radiation source. The free placement of samples 12 and the fixing of loads on them 13 when the holder 4 rotates, by means of gravity of loads, the orientation of the samples in space and thus their translational movement relative to the radiation source 6 and, therefore, uniform irradiation of the entire surface of the cylindrical sample for an integer rotation of the holder around the source of radiation 6. Rotation of the radiation source 6 around its axis in the direction opposite to the direction of rotation of the holder 4 reduces the effect of the radiation source defects and thereby increases the uniformity of irradiation of the samples. Since the samples make translational movement around the radiation source 6, with rotation at a speed less than the rotation speed of holder 4, each portion of the sample surface can be irradiated with the entire radiating surface of radiation source 6 only at a whole number of revolutions of radiation source 6 during the test time. The cylinder 8 of the translucent material and the fan 9 are used to control and stabilize the installation temperature, the electronic clock 10 and the photodiode 11 are used to set the sample irradiation and recording. The proposed method of artificially light-aging non-metallic materials ensures the uniformity of irradiation of cylindrical specimens, for example, cables with plastic insulation, and, consequently, the quality of testing by free placement of specimens in the holder.

fixing the loads on them and rotating the radiation source in the direction opposite to the rotation of the holder.

Ingenuity formula

. A method of artificially aging nonmetallic materials, in which samples of a material are freely placed in a holder of a pair of horizontally horizontal axes of a tubular radiation source and rotate the holder relative to the latter, characterized in that the irradiance of the cylindrical samples is ensured translational movement and reduction of source defects

radiation, weights are used that are fixed on the samples in such a way that their center of gravity is shifted relative to the axes of the samples, the radiation source is rotated about its axis in the direction opposite to the direction of rotation of the holder, at a speed less than the speed of rotation of the latter, provide an integer number of revolutions of the radiation source.

Sources of information taken into account in the examination

1. USSR Author's Certificate No. 164704, cl. Q 01N17 / 00, 1963.

2. USSR Author's Certificate NO 503167, cl. Q 01N 17/00, 1972.

3. USSR author's certificate MI 105654, cl. G 01N 17/00, 1957 (prototype).

Claims (1)

Claim . The method of artificial light aging of non-metallic materials, namely, that the samples of the material are freely placed in the holder parallel to the horizontal axis of the tubular radiation source and the holder is rotated relative to the latter, characterized in that, in order to increase the uniformity of irradiation of cylindrical samples by ensuring their translational movement and reduction effects of defects of the radiation source, weights are used that are fixed on the samples in such a way that their center of gravity it is shifted relative to the axes of the samples, the radiation source is rotated relative to its axis in the direction opposite to the direction of rotation of the holder, at a speed lower than the rotation speed of the latter, and during the test time they provide a distinct number of revolutions of the radiation source.