SU1365033A1 - Method of producing image on photographic material - Google Patents

Abstract

Invention m „6. used in photo and cinematography, as well as in electronic industry. The purpose of the invention is to improve image quality by increasing the sensitivity of photo material to ultraviolet and visible light. To do this, prior to impregnating the photosensitive layer, its surface is pretreated with an aqueous solution of a strong acid, for example sulfuric, hydrochloric or nitric , at a concentration of 0.5-3.0 wt.%. Acid treatment time of 10-330 s, due to the type of image obtained. Washed with water and dried. A layer of air heated to 30-45 ° C is exposed to a latent image, which then appears in an aqueous solution of a copper-formaldehyde physical developer. The proposed method can be used to obtain a metallized photographic image, as well as a halftone image on photo paper and film-positive film 1 tabl. F (L

Description

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The invention relates to methods of producing ({a utographic image using non-cerebular photographic materials based on semiconductors, for example metal oxides, displayed in non-cerebral physical displays, and can be used in photo and cinematography, for example, to obtain half-tone images on photo paper and button film, as well as in the electronic industry, for example for the production of printed circuit boards and photo masks

The purpose of the invention is to improve the image quality by increasing the sensitivity of the photographic material to ultraviolet and visible light.

The essence of the proposed method is that a zinc oxide photosensitive layer is applied onto the substrate. Dp of this zinc oxide is dispersed in water, and then in an aqueous solution of polyvinyl alcohol (PVA, however, the amount of zinc oxide (ZnO in a mixture of Zn + PVA varies in the limits - 77 wt%). In case of using 1 EXT flexible substrate in the dispersion, g of faceplate in the amount of 8–12% of the amount of PVA “The resulting dispersion is applied to the substrate (line, po; legilentereft; crank film, fiberglass laminate, paper) in amounts; 1e 0; C2-0.07 g-W / cm depending on the type of substrate and allow it to dry in room conditions about

Surface processing light; in one layer and - P JM sklyuy ksplota, laprimo1ol.ol but nitrogen, in this solution about

A concentration of 0.5–3.0% is about 1 and the upper limit of concentration is limited by the increase in the photosensitivity effect, the upper one by the possibility, if the zinc oxide is not completely dispersed in PVA, half the number of black spots, and when the concentration increases to 5 % depending on the use of e-acid) - a sharp drop in photosensitivity

The bathing time in the acid solution depends on the type of image obtained} w.

To obtain a metallized photographic image, the acid treatment time should be

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so that the PVA film does not have time to form on the surface of the layer, since it further complicates the metallization of the image of Dp to obtain a half-tone image; the acid treatment time must be such that a PVA film will form on the surface of the layer. This film protects the photosensitive film during the subsequent operations. the surface of the material is due to various effects resulting in white spots on the image. In addition to this, the PBS film gives a gloss to a photographic image. All this increases its quality,

In order to obtain a bar image, the processing time of the Acid solution is mainly determined by the preservation of the high contrast of the image. The presence or absence of a polyvinyl alcohol film in this case is not decisive.

The processing time in acidic solutions and the factors that determine it with various types of photographic material obtained (the logical image is presented in the table.

ProM) are light-sensitive.

water for 15-30 minutes, and after 3-5 minutes, distilled water

 feicyiJiHBaioT photosensitive layer, for example, with a heat jet, hp, ear, and its temperature is 35-50 ° C for 3-7 minutes.

The photosensitive layer is impregnated with a solution of a copper physical developer by bathing in it for 10-60 s in the case of using glass-laminate as a substrate, 1.5-3.5 minutes in the case of glass and film and 5-10 minutes in the case of paper substrates,

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Dry the photosensitive layer in a stream of warm air having a temperature of 30-45 ° C for 3.5-2 minutes in the case of a glass substrate. a, films and fiberglass and 155 min - in the case of paper backing

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Expose the photosensitive layer to visible or ultraviolet light.

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The resulting latent image of B is displayed by a copper physical detector

The zinc oxide remaining in the layer, if necessary, is removed by treatment with 2-5% sulfuric acid or 2-5% c.

or 5-10% acetic acid, or 10-15% phosphoric acid, or a solution of ammonium chloride,

Example 1 “To 20 g of zinc oxide mark x, h. 20 ml of distilled water is added and triturated to obtain a pasty homogeneous mass, to which 70 ml of a 10% aqueous solution of polyvinyl alcohol is gradually added with thorough stirring. The resulting suspension is applied to the glass plate at the rate of 0.03 mp / cm and allowed to dry under room conditions under normal lighting (diffused daylight or incandescent lamp light).

Dp of adhesion of the layer to the glass plate of the latter is pretreated with 1% aqueous solution of polyvinyl alcohol and -. heated at 120 ° C for 2.5 hours,

PRI me R 2, the resulting photographic material is placed in 1% sulfuric acid for 15 s, if it is desirable to further obtain a metallized or line image, and for 40 s, if it is desirable to obtain a halftone image

Example 3 Wash the plate in running tap water for 15 minutes, then 5 minutes in distilled water.

PRI me R 4, the photosensitive layer is dried with a stream of air heated to 37 ° C for 5 min

Example 5o The photosensitive layer is impregnated with a solution of a copper physical developer, placing the plate for 3 minutes in a solution of a copper physical component composition, g / l:

Copper sulfate ptvodna 35

Potassium sodium tartaric one170

Sodium hydroxide50

Formalin (40% water) 100 MP / l

Water up to 1 l

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Formalin is added to the solution of the remaining components of the copper physical developer before it is used.

The droplets of the copper physical developer left on the surface of the layer are removed with filter paper.

0 Approx. The photosensitive layer is exposed to an incandescent lamp (, 2850 K) with illumination in the plane of exposure of 1000 lx or with a mercury lamp LR111-500 with energy illumination in the plane of exposure at 10 W / cm,

If it is desirable to obtain further metallized or line image, the minimum time

0 exposure is 4 seconds in the case of exposure to visible light and 1 second in the case of exposure to ultraviolet light. For comparison, a control exposure of samples not treated with 1% sulfuric acid was performed. In this case, the minimum exposure time required to obtain a metallized line image is equal to

0 35 s in the case of exposure video) 1m light and 10 s in the case of exposure to ultraviolet light.

If it is desirable to obtain a further grayscale image, the minimum exposure time is 50 seconds in the case of exposure to visible light and 12 seconds in the case of exposure to ultraviolet light. For a control sample that was not treated with an acid solution, this time was equal to 500 and 120 Co, respectively.

Thus, the photosensitivity of the layers as a result of processing them with a 1% solution of sulfuric acid

5 increased 9-10 times

Example 8o The resulting latent image obtained as a result of exposure is displayed in a solution of a copper physical developer, the composition specified in Example 5, the temperature of the developer is 20 ° C.

The time of occurrence in the case of obtaining a stroke or halftone image is 30 minutes, and in the case of obtaining a metallized image 70 minutes, with the last 20 minutes being displayed in a fresh portion of the developer.

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After the manifestation, the layer is washed with water for 10 days and dried. On the obtained half tone image, the spots almost disappeared: from each other, the spots are occupied by

no more than 1% of the semitone density area, while on the control sample the white spots occupy about 10% of the area. In addition, the image became glossy.

The operations of impregnation with a copper physical developer, followed by drying, exposure, and the first 5-7 minutes of the manifestation are carried out under red light. The table gives the recommended processing time for the methylized, bar and halftone images in acid solutions.

The expected positive effect from the use of the proposed invention in comparison with the known one is to increase the sensitivity to visible and ultraviolet light by 8-12 times, which allows to reduce energy and labor costs, as well as to expand the range of possible use of the photographic material and method in telprm; improving the quality of the halftone photographic image and increasing the sensitivity to the visible, which allows the method to be used to produce a halftone photographic image in the photograph and

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cinematography, and this, in turn, will allow (after appropriate working off of the technology) to replace in materials such as photo paper and film-positive film, photosensitive layers containing silver and zinc oxide and photosensitive layers,

Claims (1)

Invention Formula A method of obtaining an image on a photographic material consisting of a substrate and a photosensitive layer, which is a dispersion of zinc oxide in polyvinyl alcohol, which involves soaking the photosensitive layer with an aqueous solution of a copper-formaldehyde physical developer, drying it with an air jet heated to 30-45 ° C, exposing and the appearance in the aqueous solution of a copper-formaldehyde physical developer, characterized in that, in order to increase the image quality by increasing the sensitivity photomaterial to ultraviolet and visible light, before the impregnation by the developer, the photosensitive layer is treated with an aqueous solution of sulfuric or hydrochloric or nitric acid in a concentration of 0.5–3.0 mas% for 10–330 s, then washed with water and air dried „