DE1245733B - Process for making color photographic images - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

G03c

German class: 57 b-18/11

Number: 1 245 733

File number: A 43074IX a / 57 b

Filing date: May 9, 1963

Opened on: July 27, 1967

The invention relates to a method for producing color photographic images with the aid of color development using special, highly sensitive materials that lead to sharp images.

It is known that the quality of photographic images suffers from a poor quality for many requirements Sharpness. This disadvantage is primarily due to the scattering of light by the silver halide grains in the light-sensitive layers. The disadvantages are particularly pronounced in the lower layers of multilayer materials such as those used for the production of color photographic images be used.

Various methods have already been described to avoid the blurring, e.g. B. by Addition of so-called table dyes to the light-sensitive layers. These screen dyes should absorb the scattered light. With these measures, however, another disadvantage must be taken into account 'which consists in the fact that the coloring of the layers increases the sensitivity to light is reduced, so that this method for highly sensitive recording material is practically not in Question comes.

From US Pat. No. 2,623,822 it is known to produce color photographic images, from the principle of the colored redevelopment of picture silver is made use of. The advantage of the Process is seen in the fact that the use of a small amount of components is possible or higher image densities can be achieved.

The German patent specification 1110 519 describes the use of low-silver layers for production low-silver images known. Such layers are used for a physical development process, where the usual amount of silver is used for the production of the picture, since that is not in the Layer existing halogen silver is supplied in dissolved form from the developer. The invention has for its object highly sensitive photographic materials and methods To develop these materials for processing, the production of sharp, colored photographic Allow images. .

A process has now been found for the production of color photographic images in multilayer materials containing color couplers with halogen silver emulsion layers, after the multilayer material is processed after imagewise exposure in such a way that after development the silver or silver halide in the parts of the layer which are not the image parts of the final color image
color photographic images

Applicant:

Agfa Aktiengesellschaft,
Leverkusen, Kaiser-Wilhelm-AUee 24

Named as inventor:
Dr. Bernhard Morcher, Leverkusen;
Dr. Karl Ludwig Huppert,
Neuthard near Bruchsal

corresponding, is removed, while in the image parts the silver is converted into highly sensitive silver salts, which are again color-developed after a diffuse exposure and whereby the desired, final color density is admitted by any repetition of the process and is characterized in that a multilayer material is used, * whose super halide content per layer, based on silver, is 1.5 to 3.0 g / m ² and its color coupler concentration per layer is between 3.5 and 5.0 g / m ² .

In the method according to the invention, the disadvantages described above are avoided, and one maintains images with outstanding sharpness. In the case of the light-sensitive layers, the ratio of the Color coupler concentration for silver halide concentration has been greatly increased.

This is achieved in that the color couplers are used in the usual concentrations, but the concentration of silver halide is lowered. The color coupler concentration customary in color films is between 3.5 and 5.0 g / m ² . With the lowering of the. The concentration of silver halide corresponds to a weakening of the scattered light responsible for the formation of blurred images. The materials according to the invention have the further advantage that the relatively expensive halogen silver is saved.

If the resulting color images meet the requirements with regard to Urre density, the method can be completed by treatment in the usual bleach and fix baths. When the invention Procedure also the conventional ones

709 618/497

Process steps have to be carried out several times, the advantages are the achieved sharpness of the Image and the saving of silver so high that this additional expense is justified. Here comes the method according to the invention also benefit that S in modern machine processing, photographic Materials the repetition of an operation means significantly less stress than the previous manual processing.

The photographic materials of the present invention are prepared in the usual manner. as Silver halide are silver chloride, silver bromide or mixtures thereof, the emulsion also being up to 10% silver iodide may be suitable. The emulsions can contain the usual additives, such as stabilizers, contain chemical or optical sensitizers, they can be in a known manner by adding sulfur-containing Compounds or precious metal complexes are matured. The known color couplers are preferred Applied in the usual concentrations and IedigUch the concentration of the sensitive Silver halides reduced to a moderate extent. In order to avoid the additional work in relation to the processing in the Keeping practice within tolerable limits is to reduce the silver halide concentration to that Half of the usual concentration preferred. Color films usually contain about 3.5 to 6.0 g per silver Square meters; the concentration preferred according to the invention is accordingly between 1.5 and 3.0 g of silver per square meter. It is advantageous when using the usual color emulsions while observing the normal layer thicknesses, the emulsion saved by about the same amount of binder, like gelatin, to replace. Gelatin is preferred as the binder. However, they are also hydrophilic as well as others Layer-forming KoUoids are suitable, such as, for example, polyvinyl alcohol, carboxymethylcellulose, alginic acid or derivatives thereof and similar binders, which may be used in admixture with gelatin can.

The development, bleaching and fixing of the materials to be used according to the invention can be carried out with baths of the usual composition. The processing according to the invention corresponds in the first processing step essentially the usual process, only that normally Fixing bath used before the final wash is replaced by a reducing bath, through which the Excess oxidizing agent from the bleach bath is destroyed. As a reducing agent for The reducing agents customary in photographic practice are suitable for this bath, e.g. B. AlkaUsulfite, Bisulfites, hydroxylamine. The method according to the invention is suitable for both the production of colored images suitable for the negative process as well as for reversal processes.

In the method according to the invention, both processes contain bromide after color development Bleach baths preferred. In the case of reversal processing, you should stop after the black and white development Acid bleach bath can be used, through which the silver salts formed during the oxidation of the silver image be released at the same time.

The processing according to the invention requires both the negative and the reversal process Diffuse observation can occur simultaneously with the preceding soaking or the subsequent color development be performed.

The procedural differences between these two methods can be seen in the following examples:

example 1

(A) Film of conventional composition

A multilayer film, consisting of three bromide silver emulsion layers, the yellow coupler 3- (p-stearoylamino-benzoylacetamino) isophthalic acid, the purple coupler 2- heptadecylpyrazolone [l, 5-ajbenzimidazole-sulfonic acid- (δ) and as the cyan coupler 2- naphthophthalic acid - [2 '- (methyl-n-octadecylamino) -5'-sulfonic acid] -aniUd and contains 3.9 g / m ^{2 of} silver and 4 g / m ^{2 of} color coupler with a total layer thickness of 15 μ is used as follows Way processed:

Color developer 8 minutes

Stop fix bath 5 minutes

Soaking for 5 minutes

Bleach bath 5 minutes

Soaking for 5 minutes

Fixing bath 5 minutes

Watering IOMminutes

The baths have the following composition:

Color developer

Sodium hexametaphosphate 2 g

Diethyl paraphenylenediamine 2.5 g

Sodium sulfite 3 g

Hydroxylammonium sulfate ....... 1.2 g

Chewing carbonate 50 g

Chewing bromide 2 g

Water IOOOml

Stop fix bath

Sodium thiosulfate 200 g

Sodium acetate 30 g

Glacial acetic acid 6 ml

Water 1000 ml

Bleach bath

KaUumferricyanid 100 g

Chewable bromide 20g

Disodium phosphate 10 g

Glacial acetic acid 4 ml

Water 1000 ml

Fixer

Sodium thiosulphate .. ... "200 g

Water 1000 ml

(B) Film to be used in the present invention

A multi-layer film which contains the same amount of the color couplers as the film used in Example 1, (A), but during which part of the emulsion was replaced by gelatine, so that with the same layer thickness it has a total silver content of only 2.2 g / m ² is processed as follows:

Color developer 8 minutes

Stop fix bath 5 minutes

Soaking for 5 minutes

Bleach bath 5 minutes

Soaking for 2 minutes

Reduction bath 5 minutes

Soaking for 2 minutes

Claims (1)

Acquisition (3000 Lux) Color developer 8 minutes soaking 5 minutes bleaching bath 5 minutes soaking 5 minutes fixing bath 5 minutes soaking 10 minutes The reduction bath has the following composition: Sodium hexametaphosphate 2 g sodium sulfite 50 g water 1000 ml The composition of the other baths is described under (A). The film processed in this way has the same sensitivity and the same maximum color density as described under (A), despite the significantly lower silver content. However, the resolution and sharpness are significantly increased. The improvement in resolution is particularly evident in the blue-green layer. The following results are obtained on exposure of a Foucault screen behind a red filter: Film A 75 lines / mm Film B 100 lines / mm Example 2 (A) Film with conventional composition Subject to Colomm reversal processing. The processing cycle contains the following stages: first developer 10 minutes stop bath 4 minutes soaking 5 minutes warning (3000 lux) color developer 14 minutes soaking 20 minutes bleaching bath 5 minutes soaking 5 minutes fixing bath 5 minutes soaking 12 minutes The treatment baths are added as follows: first developer sodium hexametaphosphate 2 g p -Methylaminophenol 3 g sodium sulfite 40 g hydroquinone 6 g sodium carbonate 50 g potassium rhodanide 2 g potassium bromide 2 g stop bath sodium acetate 30 g glacial acetic acid 6 ml color developer sodium hexametaphosphate 20 g sodium sulfite 3 g diethyl paraphenylenediamine 5 g potash 75 g potassium bromide 2 g- and fixing bath are given in Example 1, (A). (B) Film to be used according to the invention A multilayer film, as described in Example I5 (B), is processed as follows: first developer 10 minutes stop bath 4 minutes bleach bath (acidic) 5 minutes soaking 2 minutes reducing bath 5 minutes soaking 5 minutes exposure (3000 lux) Color developer 14 minutes soaking 10 minutes bleaching bath 5 minutes soaking 2 minutes reducing bath 5 minutes soaking 2 minutes exposure (3000 lux) Color developer 14 minutes soaking ... IO minutes bleaching bath 5 minutes soaking 5 minutes fixing bath 5 minutes soaking 10 minutes The acidic bleaching bath has the following composition: Potassium dichromate, 5 g concentrated sulfuric acid 5 ml water 1000 ml The composition of the other baths can be seen from the previous examples. With the same sensitivity and basic blackness, the sharpness and the resolution of the filmB are significantly improved. The resolving power of the lower cyan layer was determined by growing a Foucault screen with red light. Resolving power of film A ... 77 lines / mm Resolving power of film B ... 110 lines / mm Patent claims: 1. Process for the production of color photographic images with the aid of multi-layer materials containing color couplers with halogen super-emulsion layers, in that these material materials are processed after the imagewise diffusion in such a way that, after development, the silver or superhalide in the thickness of the layer which does not form the final layer Color base is removed, while in the rooms the silver salt is converted into light-sensitive silver salts, which are again color-developed after diffuse dampening and the desired, final color density is implanted by repeated repetition of the process, characterized in that a metal-based material is used, whose overshalide content is used per ScMcht _5, based on Süber, is 1.5 to 3.0 g / m ² and its color coupler concentration per ScMcht is between 3.5 and 5.0 g / m ² .