SU1442883A1 - Method of estimating light fastness of polymers - Google Patents

Abstract

The invention relates to the study of materials when exposed to UV radiation. The aim of the invention is to reduce the test time. The material is irradiated with UV radiation and the maximum spectral absorption of the chromophosphoric group is recorded before and after exposure to UV radiation, and the light resistance is estimated from the ratio of the indicated values; moreover, if this ratio is close to unity, the polymer has a high light resistance, with less than 0.5 and at a ratio of from 0.5 to 1 average.

Description

The invention relates to optical research, in particular to the investigation of polymers using ultraviolet radiation.

The purpose of the invention is to reduce the time of testing.

The method is as follows.

A thin layer of the polymer under study is deposited onto a quartz plate and its spectrum is recorded with a spectrophotometer in the absorption region of the chromophore group (I, 0.200-0.800 µm). Then the sample is 15 times irradiated with ultraviolet radiation and again, its spectrum is recorded. The light fastness of the polymer under study is decolatable with respect to the (k) velcchish absorption at the maximum of the absorption band before irradiation with ultraviolet radiation.

Claims (1)

emitted (A) to a similar magnitude of the invention after irradiation A ,. And if polymethylsiloxane in the region of wavelengths I 0,200-0,800 microns. The magnitude of the absorption in the maximum of the region of absorption A 14.1 rel. units Then, the sample is irradiated with ultraviolet radiation from the DRT-1000 lamp - exposure J / cm. The spectrum of the sample is then recorded again and it is determined that the absorbance value A, 19.0 rel. units Therefore, K 0.74-1, i.e. The material has sufficient light fastness. The use of a method for evaluating light stability allows to shorten the test time of materials, as well as reduce energy consumption. In addition, the method makes it possible to introduce quantitative estimates of light fastness. polymethylsiloxane in the region of wavelengths I 0,200-0,800 microns. The magnitude of the absorption in the maximum of the region of absorption A 14.1 rel. units Then, the sample is irradiated with ultraviolet radiation from the DRT-1000 lamp - exposure J / cm. The spectrum of the sample is then recorded again and it is determined that the absorbance value A, 19.0 rel. units Therefore, K 0.74-1, i.e. The material has sufficient light fastness. The use of a method for evaluating light stability allows to shorten the test time of materials, as well as reduce energy consumption. In addition, the method makes it possible to introduce quantitative estimates of light fastness. ratio k.if a., that the polymer has a high light resistance if K, 5 has a low light resistance, and if 1 K 0.5, then the average light resistance, i.e., the closer to unity the ratio is 30 K, the more light resistance the material has The method is implemented as follows. A layer of the studied polymer / polymethylsnloxane is applied on a quartz plate, dried at 393 K for 3 hours, and using a spectrophotometer, the absorption spectrum is recorded The method for assessing the light resistance of polymers, by which the material under examination is irradiated with ultra violet, the parameters of the absorption spectrum of the material are recorded before and after irradiation, and their resistance to light is evaluated by their ratio, in order to reduce the test time, irradiation is performed once , the absorption spectrum of the material under investigation is recorded in the absorption region of the chromophore group, its maximum is chosen as the absorption spectrum parameter, and the light stability is estimated from the ratio indicated parameters