SU1140087A1 - Method of processing of silver-halide photographic material having especially fine grain - Google Patents

Abstract

A METHOD FOR TREATING SPECIAL-GLASSED HALBGEN-SECONDARY PHOTONATERIAL, including manifestation, bleaching in an aqueous solution of potassium hexacyanoferiate, clarification in an aqueous solution of sodium sulfite, illumination and the second appearance, about 100% of potholes, clarification in an aqueous solution of sodium sulfite, flare and second exposure, about 0% and about 100% potassium peroxide, clarification of sodium sulfite, flare-up and bleaching. and the edge sharpness of the image elements, as well as the selectivity of the process, the photographic material is bleached in a solution that additionally contains chloride or sodium and potassium or sodium hydroxide to a pH of 9.0-11.0 in the following ratio of ingredients c, g: Hexacyanoferate 25g100 potassium Potassium chloride or 20-100 sodium Up to 1 l Water (L Potassium hydroxide Up to pH 9.0 or sodium 11.0.

Description

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The invention relates to methods for treating highly fine-grained (with a microcrystal size of 0.040, 07 µm) halogen-silver photographic materials in an image reversal process and may find application in the manufacture of emulsion photo masks in the radio and electronic industry. In these areas of application of these photographic materials, high performances are presented to the silver image according to such characteristics as dimensional stability and edge sharpness. A known method of treating halogen silver photographic material, including the appearance, bleaching in an acidic aqueous solution of bichroma and potassium, clarification in an aqueous solution of sodium sulfite, illumination, the second occurrence and fixation in sodium thiosulfate in an aqueous solution of sodium thiosulfate. However The method of processing photographic material does not provide the necessary edge sharpness and is accompanied by a significant change in the image size, which is associated with the difference in pH of the processing baths. A method of treating halogen silver photomaterial is known, which includes the appearance, bleaching in neutral aqueous solution of potassium hexacyanoferiate, clarification in a saturated aqueous solution of sodium sulfite, illumination and the second manifestation 2j. It provides better dimensional stability of the image elements, since bleaching is carried out at neutral pH. However, in the case of particularly fine-grained emulsions, a known method does not allow obtaining the required indices for dimensional stability and edge sharpness for silver images. In addition, due to the small difference in the rates of separation of bleached and unexposed photollo sites, the selectivity of the processing process is low and the required optical density range is not achieved (Df ,, q Dm n The purpose of the invention is to increase the dimensional stability and edge sharpness of silver image elements, as well as selectivity The aim is achieved by the fact that, according to the method of processing a special fine-grained halogen-silver photographic material, including the manifestation, bleaching in aqueous solution potassium xacyanoferriate, clarification in an aqueous solution of sodium sulfite, flare and second appearance, the material is bleached in solution. It contains additionally potassium or sodium chloride and potassium or sodium hydroxide to a pH of 9.0-11.0 in the following ratio of ingredients, g: Potassium hexacyanoferiate 25-100 Potassium or sodium chloride 20-100 Water Up to 1 l Potassium or sodium hydroxide Up to pH 9.0 The essence of the invention is that the silver salts formed during bleaching in the proposed composition dissolve in much more sodium sulfide. Oka speed than the silver halide crystals, finding schies on the unexposed photosensitive layer portions. This creates the required selectivity for the removal of silver salts from the exposed areas. The said effect takes place only on very fine-grained emulsions (0.04-0.07 µm). Preserving a similar pH in all processing operations prevents excessive deformation of the gelatinous photoflow, resulting in a decrease in dimensional stability and edge sharpness of the image. With a decrease in the concentration of potassium hexacyanoferiate below 25 g / l, the rate of bleaching decreases noticeably, with an increase of its excess of 100 g / l, the rate of bleaching no longer increases. The bleach solution is prepared, preferably using distilled or deionized water, by dissolving potassium hexacyanoferate and sodium or potassium chloride in. any sequence followed by dry sodium or potassium hydroxide (or their aqueous solution, for example, 2-4 N), bring the pH to the desired value. Example 1. Extra fine grained silver halide photographic material after its appearance for 5 min.

diluted with water 1: 1 for Vitel BP-P (TU 6-17-495. P-79) is bleached for 1.5 minutes in an aqueous solution of the composition, g / l:

Hexacyanoferriate

Kali 100

Potassium Chloride 100

Potassium hydroxide To pH 11.0.

Then the photographic material was clarified for 5 min in an aqueous solution of sodium sulfite (50 g / l), exposed to a flash of 2 min for 500 min at a distance of 1 m, and reappeared in BP-P diluted with water 1: 3 .

Example 2. The fine-grain photographic material is processed in the same way as in Example 1, but bleaching is carried out for 2.5 minutes in an aqueous solution of the composition, g / l:

Hexacyanoferriate

Kali 65

Sodium chloride 60

Potassium hydroxide To pH 10,

Example 3. Halogen-silver photographic material is subjected to

Example Size change I Blur edge No. 5 micron Element 5 micron Element, L1 micron 1 ment, Dk micron

0.15 0.20 0.20

processing as in example 1, but bleaching is carried out for 3.5 minutes in an aqueous solution of the composition, g / l:

Potassium hexacyanoferriate. 25

Sodium Chloride 20 Sodium Hydroxide Up to pH -9.0.

The table shows the measurement results, dimensional stability and edge sharpness of the image element.

I

The proposed method of processing extra fine grained halogen-silver photographic material in the process with image reversal reduces the change in size by a factor of 1.5–2.0, improves the edge sharpness by 1.3–2.0 p. And increases the interval by a factor of 3.74, 7 times. photographic image. This leads to an increase in the quality of the photomask and an increase in the yield of useful products in the manufacture of microchips.

Density interval, D, -D.

2.6 2.8 2.2

 Measurement accuracy: ± 0.05 µm.

Claims (1)

- A METHOD FOR PROCESSING A SPECIALLY-GRAIN HALOGEN-SILVER PHOTO MATERIAL, including development, bleaching in an aqueous solution of potassium hexanoferriate, clarification in an aqueous solution of sodium sulfite, for light and a second manifestation, so that the size is increased so that stability and edge sharpness of the image elements, as well as the selectivity of the process, the photographic material is bleached in a solution containing additional calcium or sodium chloride and potassium or sodium hydroxide to a pH of 9.0-11.0 in the following ratio of ingredient c, d: Potassium hexacyanoferriate Potassium or sodium chloride Water Potassium or sodium hydroxide