SU970297A2 - Method of producing silverless pictures - Google Patents

Description

The invention relates to methods for obtaining non-silver images on the layers of the elementary earth and can be used to record information in radiology, photography, and other areas of technology that require a minimum time between exposing a photosensitive material and obtaining a finished stable image.

According to the main author. St. No. 763841 discloses a method for obtaining non-silver images by applying a dielectric allotropic modification layer to a substrate by vacuum deposition at a substrate temperature of (80-60) C, exposure and fixation by heating the layer to 35-45 ° C with a speed of 5-110 ° C / min 1.

The disadvantage of the known method is the low sensitivity of the dielectric allotropic modification layer of the argina to the action of actinic light, in which the recording energy is 2 J j / cm.

The purpose of the invention is to increase the sensitivity of the dielectric allotro Iow1 layer of the M1-ka modification by increasing the optical density of the original Horo image and

enhance it without distortion and without increasing the optical density of the veil.

This goal is achieved by the fact that according to the method of obtaining non-cerebral images, after exposure, the layer with the original image is irradiated with infrared radiation with a wavelength of 0.9-1.6 µm and an exposure time of 10-200 J / cm. At the same time, the details of the image are not distorted and the optical density of the veil remains unchanged, since the radiation is not actinic for the original photosensitive material, and acts only on the portions of the layer illuminated when the image is recorded.

FIG. Figure 1 shows the dependence of the increment of the optical density of the image on the exposure obtained by the layer under infrared radiation; in fig. 2 - dependence of the increment of the optical density of the image.

Example. The glass substrate is cooled in vacuum in the order of 10 Torr to - (80-60) ° C. A layer of dielectric allotropic modification is sprayed onto the substrate at an evaporator temperature of (300 + 30) ° C for 1.5-2.5 min An image with an exposure of 2 IJ / cm is displayed on the layer obtained. Then the layer is subjected to infrared irradiation with L 1.15 microns corresponding to the maximum emissivity of infrared radiation of electric lighting equipment and an exposure of 100 J / cm. The substrate with enhanced primary image is fixed by heating the layer to (35-45) С at a speed of 5-110 ° С / min As a result of infrared irradiation of the primary image, the optical density of the resulting image increases from D 0.37 to Dr, 1.07, which corresponds to an increase in sensitivity of 2.9 times. The resulting image is stable and can be stored indefinitely. From the dependency, shown in FIG. one,

it can be seen that the image density monotonically increases with exposure; it reaches infrared radiation and reaches the value of G n-dD 1.9 at H 150 J / cm, which corresponds to an increase in the sensitivity of the material by 4.75 times.

The linearity of the dependences of the increment of the optical density of the image on the image density, obtained by a known method (Fig. 2), indicates the absence of image distortion in the process of its enhancement by infrared irradiation.

The table shows the comparative characteristics of samples of material obtained and processed according to the proposed and known method.

Claims (1)

The proposed method allows us to increase the sensitivity of the dielectric allotropic modification layer by about 10 times, producing an initial image enhancement without distortion and without increasing the optical density of the veil. The invention The method of obtaining uncollectible images by author. St. No. 763841, different from T €; m, that. in order to increase the sensitivity of the dielectric allotropic layer of the mouse by increasing the optical density of the original image and enhancing it without distortion and without increasing the optical density of the veil, after exposing the layer with the original image is irradiated with infrared radiation and an exposure of 10-200 J / cm. Sources of information taken into account in the examination 1. USSR author's certificate 763841, cl. G 03 S 1/72, 1980. 50 W 1 Ts .. /