SU626624A1 - Method of obtaining photo materials on the base of polymers containing carboxyl groups - Google Patents

Description

The invention relates to methods for producing photographic materials based on photosensitive polymers with silver-free manifestation and may find application in the chemical-photographic industry.

A known method of producing photomaterials based on photosensitive polymers containing carboxyl groups, which consists in processing the polymer with metal salts, such as silver salts [1].

However deficient silver salt is used in such a method, moreover, the target material is not ustoy- _{') 5} chiv during storage and has a low optical density and contrast ·.

In order to improve - the stability of photographic materials, exclusion of the noble metals, which provide low cost kuyu _m, a process for preparing photographic materials based on polymers containing carboxy groups, wherein the metal used w2 MDL compound of trivalent iron, such as ferric chloride.

Photolayers containing such polymers as monocarboxycellulose, carboxymethyl cellulose, tartrate and citrate, cellulose, etc. are examined. and iron ions. They are prepared by the action on the indicated polymers of aqueous solutions of ferric chloride or ferric nitrate with concentrations of 10 ^- ¾.

During processing, ion exchange proceeds with the formation of salts, the cation of which is ferric ion, and the anion is the acid residue of the corresponding polymer.

The photo layers obtained in this way are exposed through a stencil with the full spectrum of a PRK-4 mercury-quartz lamp and are shown in a silver-free physical developer containing a copper salt and a reducing agent, for example, formaldehyde. All studied polymers produce satisfactory quality images.

The use of photographic materials obtained by the proposed method will eliminate the use of noble metal compounds at all stages of the photoprocess; increase the stability of photographic materials during storage; Get an image with higher optical density and contrast. ’

Example 1. Samples from cellulose citrate, made in the form of paper, treated with a solution of ferric chloride for 5 minutes

At the end of ion exchange, the samples are washed with distilled water, removing iron ions held by adsorption forces. After drying in air, ready-to-use photo layers are exposed to the full spectrum of a PRK-4 mercury quartz lamp (intensity 6.8 · 1 O ^ hV / cM s). Exposure time 90 s. The manifestation of the latent image is carried out by chemical-photographic processing, including two baths: 1st — processing for 10s with a solution containing 15 ml / l of formaldehyde and 65 ml / l of caustic soda;

2nd — treatment with a composition containing 30 g / l of copper sulfate, 50 g / l of glycerol, 28 g / l of caustic soda (composed) and 40% aqueous formaldehyde solution (composition B) with the ratio A: B = 12: 1. The photo image is formed over 15 minutes, it is characterized by sufficient density and high contrast.

Example 2. Samples of carboxymethyl cellulose, made in the form of paper, treated for 5 hours with a solution of ferric chloride (10 ” ^AM ), washed, dried, exposed through

62.6624 4> a stencil using a PRK-4 mercury-quartz lamp (intensity 6.8 × 10 ¹⁵ th // cm ^ s). The exposure time is 3 minutes. The manifestation is carried out analogously to ₅ but to example I. The resulting image is characterized by high density and the absolute absence of a veil.

Example 3. Monocarboxyl cellulose in the form of an oxidized cellophane film is held for 1 hour in a solution of iron nitrate (10 ~ ^ M), dried, exposed through a stencil using PRK-4. Exposure time 5 minutes Chemical and photographic processing is carried out in a developer solution containing 30 g / l of copper sulfate, 50 g / l of glycerol, 28 g / l of sodium hydroxide (composition A) and formalin (composition B) with a ratio of A: B = 1: 1. The resulting ₂₀ image indicates a high resolution photographic material.

Claims (4)

The invention relates to methods for producing photographic materials based on photosensitive polymers with a non-silver appearance and can be used in the chemical-photographic industry. A known method for producing photographic materials based on photosensitive polymers containing carboxyl groups consists in treating the polymer with metal salts, such as silver salts 1. However, this method uses scarce silver salts, in addition, the target material is not stable during storage and has a low optical content. Density and Contrast In order to increase the stability of photographic materials, exclude noble metals, which will provide low cost, a method is proposed for producing photographic materials based on Limeray containing Karbokam sigruppy, wherein the metal of salts is used a compound of trivalent iron, such as ferric chloride. Examine photo layers containing such polymers as monocarboxycellulose, carboxymethylcellulose, tartrate and citrate, cellulose, and the like. and iron ions. They are prepared by acting on these polymers with aqueous solutions of ferric chloride or nitric acid with concentrations of 10 M. In the process, the ion exchange proceeds with the formation of salts, the cation of which is ferric ion, and the acid anion of the corresponding polymer. The photo layers thus obtained are exposed through a stencil with the full spectrum of the IIPK-4 mercury-quartz lamp and are shown in a non-silver physical developer containing a copper salt and a reducing agent, such as formaldehyde. Photo materials obtained by the proposed method will eliminate the use of noble metal compounds at all stages of the photoprocess} to increase the stability of photo materials during storage to obtain an image with a higher optical density and contrast. Example 1. Samples of cellulose citrate, made in the form of paper, treated with a solution of ferric chloride () in 5 minutes At the end of the ion exchange, the samples are washed with distilled water, removing the iron ions retained by the adsorption forces. After drying on air, ready-to-use photo layers are exposed to the full spectrum of mercury quartz PRK-4 (intensity 6.8 lO hV / cM). Exposure time 90 s. The display of the latent image is carried out by means of chemical-photographic processing, which includes two baths: 1- - treatment for 10 with a solution containing 15 ml / l of formaldehyde and 65 ml / l of sodium hydroxide 2- - treatment with a composition containing 30 g / l copper sulphate, 50 g / l glycerol, 28 g / l sodium hydroxide (composition D) and 40% water formaldehyde solution (composition B) with ratio. The photographic image is formed over a period of 15 minutes, it is characterized by sufficient density and high contrast. Example 2. Samples of carboxymethylcellulose made in the form of paper are treated for 5 hours with a solution of ferric chloride () washed, dried, and exposed to a stencil using a PRK-4 mercury-quartz lamp (intensity 6, nV / CM-c). The exposure time is 3 minutes. The treatment is carried out as in Example 1. The resulting image is characterized by a high density and an absolute absence of a veil. Example 3. Monocarboxycellulose in the form of a film of oxidized cellophane is kept for 1 h in a solution of iron nitrate (lO M), dried, exposed through a stencil using PPH- 4. Exposure time 5 min. Chemical-photographic processing is carried out in a solution of a developer containing 30 g / l of copper sulphate, 50 g / l glycerol, 28 g / l sodium hydroxide (composition A) and formalin (composition B), with a ratio. The resulting image indicates a high resolution of the photographic material. The invention of the method for producing photographic materials based on polymers containing carboxyl groups, consisting in treating the polymer with metal salts, characterized in that, in order to eliminate the use of noble metals and, consequently, to ensure low cost of production of photographic materials, as well as to increase the stability of photographic materials in storage, ferric compounds such as ferric chloride are used as metal salts. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 244888, cl. G 03 cl / 00, 1967.