DE2659754A1 - METHOD AND SOLUTION FOR PRESERVATING FLAT PRINTING FORMS - Google Patents

Description

HOECHST AKTIENGESELLSCHAFT

KALLE branch of Hoechst AG K 2527

Wiesbaden-Biebrich December 29, 1976

WLK-Dr.N.-ur

Method and solution for preserving planographic printing forms

The invention relates to a method and a solution for treating planographic printing forms that have been developed ready for printing, in particular planographic printing plates to protect the plates against air ingress during storage before use for printing and protect pollution, d. H. to preserve, and at the same time their non-printing surface areas permanently to hydrophilize.

It is known that ready-to-print planographic printing plates come before everyone prolonged storage must be subjected to such a slitting treatment. The treatment solution is very widely used aqueous gum arabic solution. As a natural product, however, gum arabic varies in quality. It also has an unfavorable effect on the ink acceptance during printing if the inking with protective ink is dispensed with after development, as is the case with today's common, is the case in colored printing layers.

It is also known to use dextrin instead of gum arabic solutions to use. However, these tend to stick when exposed to moisture. This can cause layer injuries that the Make the printing plate unusable.

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From DT-OS 25 04 594 it is also known for the same purpose solutions containing carboxyl groups Acrylic final polymers to be used. These solutions require however, the addition of acid, especially phosphoric acid, is mandatory, the specific acid-sensitive carrier surfaces can attack.

The object of the invention was to find a new preservation solution to propose for planographic printing forms that can easily be produced in consistent quality that are not sticky Forms surfaces that can be worked with without any problems even without coloring the image areas with protective paint and which can be used universally, even with regard to sensitive carrier surfaces lets use.

The invention relates to an aqueous solution for hydrophilizing and preservation of ready-to-print developed planographic printing plates, which are an integral part of a Contains water-soluble high molecular weight organic compound and which is characterized in that the high molecular weight organic compound is polyvinyl alcohol.

Depending on the requirements of the individual case, nature of the polyvinyl alcohol used within a wide range to get voted. So are generally polyvinyl alcohols, their 4% aqueous solutions at 20 ° C viscosities of about 1 to 40 cP are suitable. However, in certain cases, types with higher or lower molecular weights can also be used can be used with good success. In general, low-viscosity, ie relatively low-molecular-weight, polyvinyl alcohols are used for highly absorbent carrier surfaces preferred. Types with viscosities of about 2 to 5 cP are particularly suitable for this purpose.

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Both completely, ie about 98 to 100 % saponified polyvinyl alcohols, and those which still contain considerable amounts of unsaponified residual acetyl groups, e.g. B. up to 30 % or more. The proportion of unsaponified acetyl groups is only limited by the condition of water solubility. Products that are about 85-99 % saponified are particularly advantageous.

If the preservation is used for a longer storage of the plates, it is advantageous to use other water-soluble polyhydroxy compounds, such as polysaccharides, e.g. B. dextrin or water-soluble cellulose ethers, or low molecular weight polyhydroxy compounds such as sorbitol or glycerol to be added. The proportion of such polyhydroxy compounds can be up to about 80 % of the total solids of the solution. It is of course important to ensure that the advantages of polyvinyl alcohol, e.g. B. the non-tackiness of the dried coating, are not lost. The proportion of polyhydroxy compound should preferably not be greater than 60 % .

The addition of the polyhydroxy compounds mentioned is particularly important Advantage if high molecular weight polyvinyl alcohol types are used. In this case it is generally expedient to add particularly high proportions of polyhydroxy compound within the limits mentioned, since in particular high molecular weight polyvinyl alcohols for prolonged storage They tend to harden or cross-link and can then only be removed again with difficulty with water.

In order to prevent the formation of mold, it is advisable to use organic silk to add. The addition of wetting agents and defoamers can also be advantageous.

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The otherwise customary addition of mineral acid can be dispensed with. The concentration of the polyvinyl alcohol solution should normally be between about 1 and 20 %, preferably between about 5 and 15 % .

As carrier materials of the printing plates to be treated commonly used aluminum. In particular, the known and preferably used carrier materials come along with this refined surface into consideration, z. B. mechanically, chemically or electrochemically roughened and possibly with alkali silicates, aluminum treated with polymeric acids or other known agents. In particular, the solution is also used for treatment of printing plates on carriers made of anodized aluminum.

The printing image parts of the printing form can be produced in any known manner. Usually this happens by exposing a photosensitive layer and developing with a developer solution. The imaging can also be done electrophotographically by charging, Exposure, concrete and fixing of a photoconductor layer take place. In either case, the nature is that of development exposed and to be hydrophilized carrier surface of greater importance for the effectiveness of the Treatment solution as the nature and manner of making the printing layer. Preferred are generally light-sensitive layers commonly used for planographic printing based on positive or negative working diazo compounds, azido compounds, non-crosslinkable polymers or photopolymerizable ones Systems.

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According to the invention, a method for treating imagewise exposed and developed planographic printing plates with an aqueous solution of a high molecular weight, water-soluble proposed organic compound, which consists in that is called a high-molecular, water-soluble organic compound Polyvinyl alcohol used.

The following examples illustrate certain embodiments of the invention. Parts by weight (pbw) and parts by volume (pbv) are available in the ratio of g to ecm. All percentages and proportions are to be understood as weight ratios, unless otherwise stated. The stated viscosities were determined in 4% strength aqueous solution at 20.degree.

example 1

An electrochemically roughened and anodized aluminum foil comes with a solution of

2.17 pbw of naphthoquinones, 2) -diazide- (2) -4-sulfonic acid e-p-cumylphenyl ester,

1.02 pbw of the esterification product from 1 mol

2,2'-dihydroxydinaphthyl- (1,1 ') methane and 2 moles of naphthoquinones 1, 2) -diazide- (2) -5-sulfonic acid chloride,

0.37 pbw naphthoquinones, 2) -diazide- (2) -4-sulfonic acid chloride,

0.10 Gt crystal violet and

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2.90 pbw cresol-formaldehyde novolak »softening point \\ 2-U8 ^Q C in

43 Vt tetrahydrofuran,
35 pbv ethylene glycol monomethyl ether and 9 pbb methyl acetate

coated and dried. The obtained photosensitive Material is exposed under a 21-step wedge from Kodak AG in such a way that step 9 is fully covered. Then with a 5% sodium metasilicate solution. The received Printing plate, is used for storage with an aqueous solution from

10 % polyvinyl alcohol, 1.5 % residual acetyl groups, viscosity 4 cP, ~~

0.1 % sodium benzoate and
■ ".- Ό.,. Ϊ́ '% sodium diisobutylnaphthalinsulfonate

wiped over and dried. The layer applied here

2
has a weight of approximately 1 g / m. After 4 weeks of storage in the tropical cabinet, the plate is freed from the protective coating by wiping it over with water and produces perfect prints.

Example 2

A mechanically roughened aluminum foil is covered with a Solution of

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t, 5 pbw of the esterification product from 1 MoT

2,3,4-trihydroxy-benzophenone and t Mot Naphthoquinone- (t, 2) -diazide- (2) -5-sulfonic acid chloride,

Q, 8 St of the esterification product airs 1 MoT 2,2 ^r -dihydroxy-dinaphthyl- (1, 1 ') -methane and 2 MoT naphthoquinone- (1,2) -diazide- (2} -5-sulfonic acid chloride and

0.6 pbw of the novolak specified in Example 1 in 120 Vt ethylene glycol monomethyl ether

coated and dried. The dry layer weight is 2 g per m * The light-sensitive material is as in the example 1 exposed and developed.

The printing plate is treated with an aqueous solution of

tO % polyvinyl alcohol, 10.7 % residual acetyl groups, viscosity 4 cP,

3% sorbitol,

0.1 % sodium diisobutylnaphthalene sulfonate,

0.03% chloroacetamide and

0.07% sodium benzoate

wiped over and dried. After 4 weeks of storage at 52 ° C, the plate is ready for printing by wiping over with water made and delivers flawless prints.

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Example 3

An aluminum foil roughened by brushing with an abrasive suspension is immersed in a 60 ° C. bath of 0.3% polyvinylphosphonic acid in water for one minute and dried. You will then come up with a solution of

0.7 pbw of a polycondensation product from 1 ha of 3-methoxy-diphenylamine-4-diazonium sulfate and 1 mole of 4,4'-bis-methoxymethyl-diphenyl ether in 85% phosphoric acid, isolated as mesitylene sulfonate,

3.4 pbw of B5% phosphoric acid and

3.0 pbw of the reaction product of an epoxy resin with a melting point of 70 ° C and the epoxy equivalent weight 459 with hydrochloric acid in ethylene glycol (cf. DT-OS 2 034 654) in

60.0 pbw of ethylene glycol monomethyl ether,

20.0 pbw of tetrahydrofuran,

10.0 pbw of dimethylformamide and

10.0 pbw of butyl acetate

coated and dried, the photosensitive material is exposed imagewise and with a solution of

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6.5 pbw MgSO ₄ . 7 Η _? 0 and

0.7 pbw non-ionic wetting agent (fatty alcohol (C ₁ 2 ~ ^C 14 ^ polyglycol ether) in

65 Gt water and
35 Vt n-propanol
developed. The finished plate is then coated with a solution of

1 % polyvinyl alcohol, 10.7 % residual acetyl groups, viscosity 26 cP,

0.8 % dextrin (yellow dextrin of Ostwald viscosity 2.8),

0.1% sodium diisobutylnaphtha! Insulphonate,

0.03 % sodium benzoate and

0.07 % chloroacetamide

wiped over and dried. After 4 weeks of storage at 52 ° C., the printing film is washed off with water. You get toneless prints.

Example 4

One electrochemically roughened and anodically oxidized Aluminum foil is pretreated as in Example 3 and coated. The photosensitive material will be like

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ΛΛ

there described, exposed and developed. The pressure plate will then "with a solution of

\ Q% polyvinyl alcohol, 10.7 % residual acetyl groups, viscosity 4 cP,

3% glycerine (85%),

0.1 % sodium diisobutylnaphthalene sulfonate and 0.05 % sodium thenzoate

wiped in water and dried. After 4 weeks of storage at 52 ° C., the plate is obtained after washing off with water tone-free prints in the printing machine.

Example 5

An electrolytically roughened and anodized aluminum foil is coated with the following solution and dried:

T, 4 pbw of a polyester (Desmophen 850 from Bayer AG), whose free OH groups are esterified with acrylic acid,

1.4 pbw of a methyl methacrylate / methacrylic acid mixed

polymer with an average molecular weight of 60,000 and an acid number of 93.7,

0.1 pbw 9-phenyl-acridine,

0.2 pbw 1, 6-di-hydroxyethoxy-hexane,

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0.02 pbw supranol blue G 1 (CI. 50 335), 13.0 pbw of ethylene glycol monomethyl ether.

The photopolymerizable layer is exposed imagewise and with a solution of

1.5 pbw sodium metasilicate,

3 pbw polyglycol 6000,

0.6 pbw of levulinic acid and

0.3 pbw of strontium hydroxide octahydrate in

1000 Gt water

developed. The finished printing plate is covered with a solution of

10% of the polyvinyl alcohol used in Example 4 ,

0.5% carboxymethyl cellulose, viscosity in

2% aqueous solution at 20 ° C 30 cP,

0.1 % sodium diisobutylnaphtha! Insulfonate and 0.1% sodium benzoate

wiped in water and dried. After 4 weeks of storage at 52 ° C., the washed-off plate will be perfect Received prints.

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Claims (3)

Claims Aqueous solution for the preservation of ready-to-print developed planographic printing plates, the essential component of which is a water-soluble, high molecular weight contains organic compound, characterized in that the high molecular weight organic compound is polyvinyl alcohol. 2. Solution according to claim 1, characterized in that it additionally contains another water-soluble polyhydroxy compound. 3. Process for the preservation of print-ready planographic printing plates, in which the planographic printing plate with an aqueous Solution of a water-soluble high molecular organic Compound is treated and dried, characterized in that polyvinyl alcohol is used as the high molecular weight organic compound. ORIGINAL INSPECTED 809826/0123