DE1622742C - Process for the production of printing forms and relief images - Google Patents

Description

The invention relates to a method for producing printing forms or relief images according to a Silver salt diffusion process using special receiving layers.

For the production of relief layers that can be used as printing forms with the aid of halogen silver emulsion layers various processes are already known. The exposed silver halide emulsion layer becomes generally developed under tanning conditions and then brought into contact with a further layer of gelatin, the unexposed and therefore undeveloped and uncured image areas adhere more strongly than to developed so that relief layers are obtained when the two layers are torn apart. Such Methods are described, for example, in British Patent 655,274 and U.S. Patent 2,596,756. However, the development of tanning has been considerable, particularly in terms of practical application Disadvantages, since a perfect printing form can only be produced if certain development conditions are met must be adhered to very precisely.

Since the tanning development shows a particularly strong temperature dependence, the developer temperature is allowed fluctuate only in a very small range. Such precise conditions can be found in the Practice seldom adhere to, so that. relief layers which are very often unusable according to this known method can be obtained.

It has now been found that a silver salt diffusion process excellent relief images can be obtained in a simple manner if one is used as a binder for the receiving layer film-forming water-soluble or water-swellable polymers with free Carboxyl groups used. In the method according to the invention, the procedure is that the exposed photographic layer after or during development in the presence of halogenated silver solvents is brought into contact with a receiving layer, the copolymers containing carboxyl groups contains. Here, the halide is dissolved from the unexposed image parts of the negative material and into the Transfer layer transferred, the properties of which are changed image-wise. The areas of the receiving layer that absorb the dissolved silver salts are more insoluble in water than the rest of the layer. In addition, their ability to adhere to other materials in the present case greatly increased in the unexposed areas of the negative material. Through this these parts remain firmly attached to the unexposed areas of the negative and become when the two are separated Materials torn out of the transfer layer. So you get a positive relief on the negative material, while a negative relief remains on the base of the transfer material.

Carboxymethyl cellulose, for example, are suitable as layer-forming high-polymer substances with carboxyl groups, Alginates and its derivatives, pectins and plastics that contain free carboxyl groups, such as polymers of acrylic acid, maleic acid and other polymeric substances capable of forming silver salts to build.

These high polymer substances can also be mixed with such high polymer compounds which do not form silver salts, such as polyvinyl alcohol, gelatin, starch ether, etc.

The procedure is to be explained on the basis of the following general information.

On a paper backing on which a hardened gelatin layer lies, another layer, for example a carboxymethyl cellulose layer. This layer is brought into contact with an imagewise exposed halide silver emulsion layer and both materials by a developer solution out, which contains a halogen silver solvent, thereby the exposed areas of the negative reduced to silver while on the unexposed

ίο Make the silver go into solution and get into the carboxymethyl cellulose layer diffused. The layer parts of the receiving material that contain the diffused silver halide take up, are changed in their adhesive properties so that they are attached to the corresponding unexposed Areas of the negative layer adhere more strongly than on the layer support or on the hardened gelatin layer. If these two layers are now separated, there is on the unexposed parts of the negative Carboxymethyl cellulose as a relief, as the carboxymethyl cellulose layer extends to the gelatin substrate at these points is torn out. At the same time, a relief is formed on the carboxymethyl cellulose layer, where the records of the original correspond to wells. You can do both on the

The relief formed on the negative layer as well as that on the Use the transfer layer remaining relief as a printing form.

Relatively large quantities can be fed into the receiving layer without fundamentally changing its behavior add other substances. For example, it is possible to add larger amounts of dye to the layers to incorporate. If these layers are processed according to the procedure, they remain on the negative parts of the carboxymethyl cellulose layer which hang in larger quantities imagewise in the unexposed areas Contain dye. In this case you can see the image of the original in a positive, but reversed reproduction on the negative. This negative can be used as a printing form for various processes, depending on the type of dye added. When using an alcohol-soluble dye in the Layer you can get a larger number of prints from the printing form of the negative according to the principle of alcohol pressure.

If, for example, easily fusible dyes from the group of Sudan dyes are used for the carboxymethyl cellulose layer, the dye can gradually be transferred to a paper support, for example on ordinary typewriter paper, by the action of heat, and a corresponding number of prints can be made. In both of the above cases, the finished print is a positive, right-sided reproduction of the original.
Furthermore, the relief remaining on the carboxymethyl cellulose layer can be used as a printing form for stencil printing, for example by transferring the still moist layer onto tissue paper. In this case, instead of the recordings to be reproduced, the pores of the tissue paper remain open, while they are glued to the other places by the carboxymethyl cellulose layer. Only through the open pores of the tissue paper can printing ink or an alcohol-soluble dye transfer onto a paper carrier. In this case, too, a positive, right-sided image of the copied original is obtained. As already mentioned above, a number of different coating agents can be used for the processes described here.

Another characteristic is that they contain carboxyl groups and can therefore form silver salts. A wide variety of substances can be used as additives to the layers. The selection of the dye to be used depends on the intended use. For example, its solubility can be be authoritative in alcohol. Other additives that can be added to such layers influence above all the swelling capacity of the layer, which is responsible for the adhesion to the emulsion layer and the sub-layer is decisive. So z. B. the addition of salts to the layers or of non-swellable fillers, such as barium sulfate, have a strong influence on the behavior of the layer. Also the salt content of the developer or a Adding alcohol to the developer can be very critical. In general one can use the ones discussed here Do not pour layers directly onto a paper backing because the coating agent is in the The substance seeps in during casting and parts of the layer can no longer be torn out smoothly. It rather, it is necessary to coat the paper carrier with an agent that has a very smooth surface possesses (casting). It is important that the layer from which parts are torn out during processing should not be able to seep into the sub-pouring when pouring, and that this layer is on the sub-pouring does not adhere too tightly. You can harden gelatin layers or z. B. also polyvinyl alcohol use. Instead of paper, film foils have also proven to be useful, in which one under certain circumstances can dispense with an undercoat. The experiments proved that for each individual case The material of the layer support, the base and the additives must be precisely matched to one another.

B e i s ρ i e 1 1

1 liter of a 5% aqueous solution of carboxymethyl cellulose and 30 g Sudan red (Schultz, 1. Volume, 7th edition, No. 976) are on a ball mill very intimately mixed.

The solution is still a wetting agent, such as. B. Saponin, and pour it onto a paper backing that has previously been coated with a hardened gelatin layer has. This layer is expediently processed together with a photographic negative layer in devices such as those used for practicing the silver salt diffusion process. This Devices are filled with a developer, which can have the following composition:

Water 1000 ecm

Sodium sulfite sicc 100 g

Caustic soda sicc. 12 g

Hydroquinone 15 g

1-phenylpyrazolidone-3 0.5 g

Potassium bromide Ig

Sodium thiosulfate 5 g

The exposed negative and the above-described carboxymethyl cellulose layer are run together through the device (through two separate slits) and separates the two layers after about 2 minutes. After separation, the carboxymethyl cellulose dye layer is only found in the unexposed areas of the negative. The negative layer is dried and brought into contact with ordinary typewriter paper and sets both papers for a few seconds z. B. in a heating press of a higher one Temperature off. Fractions of the dye are transferred to the typewriter paper, and you sees there the correct-sided positive reproduction of the original in red color. You can do this Repeat over 100 times until the dye supply is exhausted. Instead of Sudan red you can of course also use other dyes or color mixtures, provided that they only have the property have to be transferable by heat. A number of such dyes are shown in the table below

ίο stated: -

Sudan red Schultz, 1st volume, 7th edition, No. 976, alcohol also stains red 15th red fluorescence Sudan R Schultz, 1st volume, 7th edition, No. 149, alcohol turns red Sudan III Schultz, 1st volume, 7th edition, 20th No. 532, alcohol turns red Sudan IV Schultz, 1st volume, 7th edition, No. 541, alcohol turns red Sudan CB Schultz, 1st volume, 7th edition, No. 127, Alcohol stains organs * 5 Sudan II S c h u 11 ζ, 1st volume, 7th edition, No. 92, alcohol turns yellowish red Sudan I Schultz, 1st volume, 7th edition, No. 33, alcohol turns yellow on Sudan G Schultz, 1st volume, 7th edition, 3 ° No. 31, stains alcohol and fat yellow . Sudan brown Schultz, 1st volume, 7th edition, No. 115, alcohol stains brown 35 Nigrosine Schultz,!. Volume, 7th edition, -. ■ No. 986, alcohol turns blue Para blue Schultz, 1st volume, 7th edition, No. 987, alcohol turns blue brilliant Schultz, 1st volume, 7th edition, 40 blue CC No. 991, alcohol turns blue Nigrosine base Schultz, 1st volume, 7th edition, No. 985, stains alcohol bluish black

Example 2

1 liter of a 6 ° / _o aqueous solution of carboxymethyl cellulose are kneaded together with 100 g petrol blue on a roll mill.

Petrol blue 1,4-di-isobutylamino-anthraquinone

NH • CH., • CH

co

■ - '■ co ν

NH · CH ₂ · CH '

CH _n

-CH,

CH _n

This thick paste is mixed with 1.8 liters of a 2 ° / _o by weight carboxymethylcellulose (same grade as above) and homogenized. Before the

Casting is set per liter of 10 g of table salt and a wetting agent, such as. B. Saponin, too and shed on a paper coated with a hardened gelatin. These layers can be processed in the same way as indicated in example 1.

B e i s ρ i e 1 3

Is mixed 1 liter of a 0.9% strength aqueous solution of sodium alginate ^s with 10 g of Sudan Red and 25 g of sodium chloride very well on a ball mill. The solution is poured onto a paper which is coated with a hardened gelatin layer. The layers are processed as indicated in Example 1.

B e i s ρ i e 1 4

1 liter of a 6.2% ^'s g aqueous solution of carboxymethylcellulose (Schultz, 1. Band 7th edition, # 822.) Is mixed with 30 g Victoria blue direction. After adding saponin, the solution is poured onto a paper that has previously been coated with polyvinyl alcohol. This layer is processed as indicated in Example 1 up to the completion of the printing matrix. The printing matrix obtained in this way is suitable for alcohol printing, whereby the corresponding commercially available devices can be used. 200 to 300 prints can be obtained from such a stencil.

Example 5

30 g of crystal violet (Schultz, Volume I, T. Edition, No. 785) are ^{mixed well with 100 ecm of a 3% 8 en} wax emulsion and dried. This dye-wax mixture is added to 1 liter of a 5.4% strength aqueous solution of carboxymethyl cellulose on a paper which has been coated with hardened gelatin, and it is cast in the usual way. Processing takes place as indicated in Example 4.

Example 6

Was coated a 5 ° / _o aqueous solution of carboxymethyl cellulose which is a filler 10%, of a non-swellable substance such. B. barium sulfate or titanium dioxide has been added onto a paper that has an undercoat of hardened gelatin. This layer is processed as indicated in Example 1. After this layer has been peeled off the negative, it is placed while still wet on a stencil made of Japanese paper or a fine fabric such as is used for wax matrix or screen printing. After a short drying time, the layer will adhere to the fibrous surface. Since the part of the carboxymethylcellulose layer which corresponds to the recordings to be reproduced has stuck to the negative, these areas on the stencils are not covered, that is, a printing ink can penetrate through the pores of the stencil material in these areas, while the other areas of the Carboxymethyl cellulose layer are held.

B e i s ρ i e I 7

1 l of a 0.5% gcn solution of poly methacrylic acid in water and 10 g of Sudan red are intimately mixed in a ball mill. After adding Netzmilteln, such as. B. saponin, the mixture is poured onto a paper support that was previously coated with a hardened gelatin layer, and dried. Processing is carried out as described in Example 1.
'

B e i s ρ i e 1 8

g petrol blue are with 11 of a 12 'gen ° / ₀ solution of apple pectin in water in a ball mill

ίο intimately mixed. ^{80 cm 3 of} a 5% solution of polyvinyl alcohol in water, cm ^{3 of} a 50% aqueous sodium thiosulfate solution and small amounts of saponin are added to this mixture and the mixture is poured onto a paper support provided with a hardened gelatin layer. The processing is carried out as in Example 1, but in this case the developer does not contain any sodium thiosulphate.

Claims (6)

Patent claims: 1. Process for the production of printing forms and relief images by developing a sub Interposition of a line original image-wise exposed silver halide emulsion layer which is in contact with a non-photosensitive receiving material, with a silver halide solvent containing developer through that of the unexposed areas of the silver halide emulsion layer Silver halide dissolved and. is transferred to the receiving material and by subsequent separation of the negative layer and the receiving material, characterized in that the binder for the receiving layer wholly or partly made of water-soluble or water-swellable polymers Carboxyl groups, which are able to form silver salts, exist, with the adhesive properties this binder at the points that have taken up the dissolved silver halide, so changed be that when separating the negative material from the receiving layer, these parts of the layer on the The negative layer will stick and be torn out of the receiving layer, whereby on the negative layer a positive relief of the original is obtained and a negative relief of the original remains on the receiving material. 2. The method according to claim 1, characterized by the use of receiving layers that as binders, carboxymethyl cellulose, alginic acid and its derivatives, pectins or polymers of acrylic acid or maleic acid. 3. The method according to claim 1 and 2, characterized by the use of receiving layers, the dyes that can be transferred to another substrate under the action of heat contain. 4. The method according to claim 1 and 2, characterized by the use of receiving layers, which contain dyes soluble in alcohol or other organic solvents. 5. The method according to claim 1, characterized in that one is used for the production of wax matrices or screen printing forms on a relief layer remaining on the receiving material Tissue paper or a fine-meshed fabric presses, after separating the two materials the relief layer separated from its substrate 7th 8th and onto the tissue paper or the fine mesh of which the transfer layer is relatively easy Tissue is transferred. can peel off or that between the pad and 6. The method according to claim 1, characterized in that the transfer layer contains a further layer through the use of a transfer material, an easy separation of the transfer layer enables whose substrate consists of a material, 5 light.