RU2009534C1 - Method for polychromatic pattern making by black-and-white photographic materials using with low silver content - Google Patents

Abstract

FIELD: art-photography technology. SUBSTANCE: photographic material is processing by oxidizable solution to obtain higher contrast factor of pattern. Solution has next components in units of g per l: potassium ferrohexacyanide 100-250, caustic sodium 40-100, triazobenzene 0,1-0,4 and water added up to 1 l. Reducing solution for next treatment has bivalent iron sulfate, oxalic acid, sodium citrate, Trilon B and water. EFFECT: better method for polychromatic pattern making. 1 tb

Description

 The invention relates to methods for producing polychrome images on black and white photographic material and can find application in art photography, cartography, flaw detection.

 When using photographic methods in various fields of science and technology, the problem arises of obtaining colored images both directly in the process of processing photographic material and through the stage of obtaining a black and white image.

Known photographic process that allows you to get a painted silver image in the processing of black and white photographic material. The process is carried out when processing a film (silver content of 0.5-1.0 g / m ² ) with a fine-grained, sufficiently monodisperse emulsion in a developing-fixing solution [1].

 The aim of the invention is to develop such a method for producing polychrome images on black and white low-silver photographic materials, which would allow to increase the contrast ratio of a polychrome image.

This goal is achieved by the fact that the black-and-white image obtained on a silver halide photographic material is oxidized in an alkaline solution of potassium hexacyanoferrate with the addition of benzotriazole composition, g / l: Potassium hexacyanoferrate 100-250 Caustic soda 40-100 Benzotriazole 0.1-0.4 Water Up to 1 liter
then treated in a solution of a reducing agent of known composition, g / l: Ferrous sulfate (P) 7-aqueous 16 Oxalic acid 5 Trilon B 2 Sodium citric acid 260 Water Up to 1 l
A comparative analysis of the claimed solution with the prototype shows that a distinctive feature of the proposed method for obtaining polychrome images is the processing of a black and white image in a solution of an oxidizing agent of a certain composition, in which benzotriazole is additionally added.

 Thus, the claimed method meets the criteria of the invention of "novelty."

 A technical solution is known in which a black-and-white image is converted to a colored one by sequential treatment, first in an oxidizing solution and then a reducing agent. However, with such processing, the colored image has a low contrast ratio, while the proposed method, when benzotriazole is additionally added to the oxidizing agent, after which it is processed in a reducing agent solution, can significantly increase the contrast ratio. This allows us to conclude that it meets the criterion of "significant differences".

PRI me R 1. Samples of low-silver phototechnical film FT-M (content 1 g / m ² ) is exposed behind a step wedge, after which the samples are shown in the chemical developer of the composition, g / l: Metol 2.5 b / v sodium sulfite 50 Hydroquinone 10 Used sodium carbonate 80 Potassium bromide 1 Water Up to 1 L,
washed in running water, and then fixed in a solution containing 250 g / l sodium thiosulfate and 20 g / l anhydrous sodium sulfite. Get a black image with optical densities in different fields of sensitograms: 2.0; 1.5; 1.0; 0.60; 0.40; 0.30; 0.22; 0.16; 0.08.

PRI me R 2 (prototype). A series of three samples was processed in a bleaching solution (Table 1, No. 1), washed, dried, and then processed in a reducing solution containing iron (P) 7-aqueous sulfate 16 g / l, trisodium citrate 260 g / l, oxalic acid 5 g / l, Trilon B 2 g / l, water - up to 1 l. Received polychrome images with blue, green, yellow and pink tones. Since the image is colored, the absorbance was measured for the blue-green part behind the red filter (λ = 688), for yellow-pink, behind the blue filter (λ = 420). Accordingly, the values obtained are: D _max K = 1.70, γ _k = 3.5, D _max C = 1.20, γ _c = 2.3.

PRI me R 3. Everything is as in example 2, but benzotriazole in an amount of 0.2 g / l was additionally introduced into the composition of the bleaching solution (N 2, in the table). The values of γ increased significantly: γ _k = 5.5; γ _c = 10 with a slight increase in optical density.

PRI me R 4. All according to example 3, but the concentration of the components of the bleach is significantly reduced (N 3 in the table). Got values γ _to = 3.6; γ _s = 3.0.

PRI me R 5. Everything is as in example 3, but the concentration of the components of the bleaching solution is increased (N 4 in the table). The values obtained were: γ _k = 4.0, γ _s = 4.0. It should be noted that an increase in the concentration of bleach components leads to softening of the gelatin layer of the photographic material and the loss of its mechanical strength.

 As follows from the data (table), the use of the proposed method in comparison with the prototype can significantly increase the contrast ratio in both blue and red areas. So, if when processing according to the prototype FT-M film, the maximum contrast coefficient for the red and blue filters, respectively, is 3.3 and 3.5, then when processing the proposed method, they are respectively 5.5 and 10.0. The maximum optical density also increases slightly compared to the prototype. (56) Sviridov V.V., Sergeeva O.V., Stashonok V.D. ZhNiPFiK, 1988, v. 33, No. 1, p. 71.

Claims (1)

METHOD FOR PRODUCING POLYCHROMIC IMAGES ON BLACK AND WHITE SMALL-SILVER PHOTO MATERIALS by treating the developed and fixed materials in an alkaline oxidizing solution containing potassium hexacyanoferrate, sodium hydroxide and water, and subsequent processing in a solution of a reducing agent containing hydrochloric acid and sodium hydrogen sulfate and water, characterized in that, in order to increase the contrast ratio, use an alkaline solution of potassium hexacyanoferrate, additionally containing benzotr azole, with the following component ratio, g / l:
Potassium hexacyanoferrate 100 - 250
Caustic soda 40 - 100
Benzotriazole 0.1 - 0.4
Water Up to 1 L

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