DE2263804C3 - Process for the production of a relief plate - Google Patents

Description

R ¹ SR ³

\ Il /

Ν — C-N

R ^:

R ⁴

in which each of the radicals R ¹ , R ² , R ³ and R ^{4 is} a hydrogen atom, an allyl, amino, acetyl, phenyl or alkyl group with a maximum of 10 carbon atoms, a monosaccharide or disaccharide, ascorbic acid, ethylenediaminetetraacetic acid or its alkali metal salts, Oxalic acid or its alkali metal salts, thiosulphate salts, thiocyanate salts, stannous salts or ferrous salts as reducing agents in an amount of 0.001% by weight up to the saturation concentration.

2. The method according to claim 1, characterized in that one is an aqueous solution or Emulsion used which is 0.1 to 20% by weight contains membrane-forming polymeric compound or wax.

3. The method according to claim 1 or 2, characterized in that the membrane-forming polymeric compound or wax sodium alginate, gum arabic, polyvinyl alcohol, polyvinyl pyrrolidone water-soluble ceilulose compounds, starch compounds and polymers of ethylene oxide with an average molecular weight of about 10,000 to 200,000, paraffin wax or Carnauba wax is used.

4. Process according to claims 1 to 3, characterized in that one is a photosensitive Treats material that contains a) 100 parts by weight of an unsaturated polyester, b) 10 to 200 parts by weight, per 100 parts by weight of the unsaturated polyester, at least one ethylenically unsaturated monomer, c) 0.001 to 10 parts by weight per 100 parts by weight of the light-sensitive material, one Photopolymerization initiator; and d) 0.0001 to 2.0 parts by weight per 100 parts by weight of the photosensitive Material containing a thermal polymerization stabilizer.

5. The method according to claim 4, characterized in that one is an aqueous solution or Emulsion used containing the reducing agent in an amount of 0.01 to 30 percent by weight contains.

The invention relates to a method for producing a relief plate by imagewise exposing a light-sensitive recording material with a photopolymerizable layer, developing the recording material for relief by removing the unexposed areas of the photopolymerizable Layer and post-exposure of the resulting relief.

It is common to make relief plates by using a A layer of photosensitive composition of a desired thickness is formed on a suitable substrate, the layer obtained is exposed to actinic radiation through an image-bearing slide, for example through a photographic negative to photopolymerize the areas of the image that were not exposed Areas washed out with an aqueous alkaline solution or a solvent and the obtained Relief plates are dried.

To increase the hardness and strength of the relief image areas when pattern plates are used for die embossing and relief printing plates with high printing resistance or relief printing plates which have high quality imprints deliver, are produced, the entire surface of the relief printing plates obtained will also be with post-exposed actinic radiation in order to continue the photoreaction and the hardening of the relief image areas to complete. In general, this post-exposure tends to be caused by molecular Oxygen in the air is delayed and it is therefore difficult to just pass through the surface of the polymer sheets Exposure to actinic radiation to cure completely. With this post-exposure, however, the Sides of the relief image areas and in particular fine dots or fine lines, d. H. the border areas between image areas and unexposed areas, hen, cannot be fully cured. So it stays The surface of relief plates is viscous and causes various disadvantages, such as the sticking of mats on the pattern plate when performing the die stamping, the accumulation of dust from Printing paper in the relief plates and web breaks in the printing paper that are used during a printing process has become sticky or viscous.

Also remains in accordance with a method of making photopolymer plates disclosed in U.S. Pat 63 222 is described, this stickiness is still in the carrier layer, which is caused by exposure of a light-sensitive Mass from the underside with actinic light, d. i.e., from the opposite side of one image-bearing transparencies, and often causes night-time such as those described above. The fine points and lines, which have larger side areas in terms of their volume, can not be fully cured, even after exposure it is difficult to remove the relief image areas to harden and consolidate.

Various methods have been proposed to eliminate these disadvantages. A method consists in the post-exposure of the plates in an inert gas atmosphere such as gaseous carbon dioxide or nitrogen. However, this method requires a

razor-tight device and dislodging ier air with this inert gas for each plate. Another method! is to use the surface of the panels »In synthetic resin film or with cellophane paper

cover to exclude air from the surface. However, it is impossible to apply this method to relief plates that are exposed to Formation of relief images and washing of unexposed areas were subjected.

On the other hand, it has been known for a method of reproducing by image transmission

To use hot-polymerizable recording material, in which the photopolymerizable an oxygen-impermeable protective layer (DTAS 12 65 579) Bi di Vfh

ι ο nal, gum arabic, casein, water-soluble cellulose compounds such as carboxymethyl cellulose, methyl cellulose, ethyl cellulose, hydroxyethyl cellulose, starch and starch derivatives such as sodium starch glycolate, water-soluble polymeric compounds such as polyvinyl alcohol and its partial esters, ether and acetals, polyvinylpyrolidone , Sodium polyacrylate, polyacrylamide, polymers of ethylene oxide with an average molecular weight of about 10,000 to,000,000, methylvinyl / maleic anhydride copolymers, mineral waxes such as paraffin wax, vegetable waxes such as carnauba, Japan wax, animal waxes, natural waxes such as beeswax, synthetic

c hirht an acidic acnuizscnicni waxes, liquid paraffin, polystyrene and styrene copo- ? Ptraeen is (DT-AS 12 65 579). In this case of vertebral polymers, polyvinylidene chloride and its copolymers, the image-wise exposure takes place through the polyvinyl acetate and its copolymers and polyacrylate coated layer, to switch off the effects of oxygen. te and acrylate copolymers.

The npr pir invention is based on the task of The concentration of the membrane-forming polymer

_U ctPltane a relief plate after the development of the ren compound or the wax is set in such a way Käßig exposed layer as completely as possible that the thickness of the on ^ ^p hotopolymerplat-P ^ polymerization to allow the te applied membrane about 001 microns .to about IpliS areas, in particular fine points and 50 microns, preferably 0.1 microns to 20 microns Hn e? u solidify and the relief image is water-resistant. When the thickness is less than 0.01 micro »so that it can more satisfactorily produce the desired effects such as can be used as a printing plate, and on the other hand, when the thickness is more than aU SU -« _b application sufficiently long ^ "^> ™ ^ $ ^ $ i £ Z

^U n> Sg the task is done with a method compound or the wax is filled and the thickness

f H Sung ejS relief plate by image-wise the applied membrane becomes "" even

When considering a photosensitive recording material, the accuracy d * thickness is less than

X mΪ a photopolymerizable layer, development resulting photopolymer plate verloi en and the

^denl .., ^s ', 1_ " _: . "; L. . ,, artri ^ n ΐΛ, πηα r, H _Pr 60% by weight, preferably 0.1 to 20% by weight.

Examples of suitable reducing agents that can be used to reduce the duration of the

which iivtit * - ¹ **! ****** - ".,

the post-exposure is treated with an aqueous solution or an emulsion which contains 0.05 to 60% by weight at least one membrane-forming polymeric compound or a wax and a thiourea compound the formula

R ¹

R ³

To shorten post-exposure, the following

(7) Thiourea compounds of the general formula

Il

N — C — N

R ¹

45

Il

N — C — N

R ³

in which each of the radicals R ', R ² , R ³ and R * is a hydrogen atom, an allyl, ammo, acetyl, phenyl or alkyl group with a maximum of 10 carbon atoms, a monosaccharide or disaccharide, ascorbic acid, ethylenediaminetetraacetic acid or its alkali metal salts, Oxalic acid or its alkali metal salts contains thiosulphate salts, thiocyanate salts, stannous salts or ferrous salts as reducing agents in an amount of 0 001% by weight up to the saturation concentration. The method according to the invention has the advantage that the relief plates obtained are cured completely and free of tack in all areas, including areas with fine points and lines Relief image areas of the photopolymer plate required to be shortened considerably.

Examples of suitable membrane-forming polymeric compounds and waxes which are suitable for the preparation of the aqueous solutions or emulsions used according to the invention include Natr.umalg.- ei ^ Ä ^ rlSf ^ rSyf
AM group with a maximum of 10 carbon atoms. Examples of these thiourea compounds include
Thiourea, allylthiourea,

Ν, Ν-diallylurea,

Ν, Ν-diallylthiourea,

Triallylthiourea,

Tetraallylthiourea,

Methylthiourea, ethylthiourea,

n-propylthiourea,

isopropylthiourea,

n-butylthiourea,

Ν, Ν-diethylthiourea,

Ν, Ν'-allylmethylthiourea,

Ν, Ν'-diallylmethylthiourea,

N.N'-methylethylthiourea,

Ν, Ν'-dimethylethylthiourea,

Ν, Ν'-dimethylallylthiourea,

Phylthiourea,

Ν, Ν'-diphenylthiourea,

Ν, Ν'-phenylmethylthiourea,

Ν, Ν'-diphenylmethylthiourea, s

Acetylthiourea,

Ν, Ν'-diacetylthiourea,

N.N'-diacetylthiourea,

Ν, Ν'-acetylethylthiourea,

Ν, Ν'-diacetylmethylthiourea, Ν, Ν'-AcetylaUylthiourea and

Thiosemicarbazide.

(2) monosaccharides and disaccharides including glucose, mannose, galactose, lactose and maltose,

(3) ascorbic acid,

(4) Ethylenediamine tetraacetic acid and its alkali metal salts, including the sodium salt and Potassium salt of ethylenediamine tetraacetic acid,

(5) oxalic acid and its alkali metal salts, including Sodium oxalate, potassium oxalate and potassium hydrogen oxalate,

(6) salts of thiosulfuric acid, including sodium thiosulfate, Potassium thiosulphate, calcium thiosulphate and ammonium thiosulphate,

(7) salt-like thiocyanates, including sodium thiocyanate, Potassium thiocyanate, calcium thiocyanate and ammonium thiocyanate,

(8) stannous salts, including stannous chloride, stannobromide, Stannous sulfate and stannous oxalate, and

(9) ferrous salts, including ferrochloride, ferrobromide, Ferrous sulfate, ferrous ammonium sulfate and ferroacetate.

The concentration of the reducing agent is in the range from about 0.001% by weight to saturation, where the preferred range is 0.01 wt% to 30 wt%. If the concentration is below 0.001 wt% drops, the desired effects are hardly achieved.

Any customary emulsifier can be used to prepare the aqueous emulsions. For examples of suitable emulsifiers include nonionic, anionic and cationic surfactants, such as Polyoxyethylene nonylphenyl ether, polyoxyethylene alkyl ether, Sorbitan fatty acid esters, sodium alkyl sulfates and sulfonates with 12 to 18 carbon atoms, Alkyl aminocarboxylates and dicarboxylates.

The concentration of the emulsifier is preferably in the range from about 0.01 to 20% by weight.

In order to improve the stability of the aqueous emulsions, colloidal silica, Polyethylene with an average molecular weight of about 500 to 5000, rosin, urea, Fatty acids, organic solvents and ammonia are used to produce the aqueous emulsions will.

The aqueous solutions or emulsions of the present invention become easy and simple by dissolving them or emulsifying the membrane-forming polymeric compound or the wax together with the Reducing agent made in water.

When the membrane-forming polymeric compound or the wax with the reducing agent in one Dissolved organic solvent and the resulting solution instead of the aqueous solution or emulsion is used, it is possible to fully cure the image area of a polymer plate. The photopolymer panel however, it tends to swell and the strength of the relief image areas is decreased. Besides, the practical use of organic solvents associated with numerous disadvantages, such as Flammability, toxicity, unpleasant smell and laborious recovery of the volatilized organic Solvent.

For treating a photopolymer plate with the aqueous solution or emulsion, which forms a membrane polymeric compound or a wax together with a reducing agent can be any conventional Method to be applied. For example, the photopolymer plate is a few seconds to about 5 Immersed in the aqueous solution or emulsion for minutes. In addition, the aqueous solution or Emulsion onto the photopolymer plate by spraying, with the help of a pair of rollers or a brush or applied with a brush.

The photopolymer plate treated in this way is post-exposed. The photopolymer plate can be before, after or be dried at the same time as the post-exposure stage.

The post-exposure takes place with actinic radiation with a wavelength of about 2000 to 8000 Angstrom units. Practical sources of this actinic radiation include carbon arc lamps, high pressure mercury lamps, Super high pressure mercury lamps, low pressure mercury lamps, xenon lamps, Ultraviolet fluorescent lamps and daylight. The exposure time is about 5 seconds to 30 seconds Minutes.

The membrane that is on the surface of the relief image areas by the treatment according to the invention is formed, serves to complete the photo-setting reaction on the surface of the relief parts and leads to solidification of the relief image areas which have fine dots and fine lines and to improve the printing resistance of photopolymer plates. If the membrane is made from an inventive aqueous paraffin wax emulsion is formed, the water resistance of the photopolymer plates is increased and moreover, when used a photopolymer plate as a pattern plate for die embossing, the photopolymer plate barely through the in affects the water contained in the paper web and in this way the effectiveness of the formation of the Pattern improved.

The treatment according to the invention with an aqueous. Solution or emulsion is especially effective for photosensitive materials of the photopolymer type disclosed in US Patents 29 02 365, 29 27 022, 29 46 611, 30.24 180, 29 27 710 and 29 72 540 and the Japanese Patent Publication 29 525/1971 and U.S. Patents 35 56 791, 36 28 963 and 36 63 222 and US patent application 2 91 992 dated Nov. 24, 1971.

The treatment according to the invention is particularly effective for a photosensitive material which (a) an unsaturated polyester, (b) at least one ethylenically unsaturated monomer, (c) a photopolymerization initiator and (d) a thermal polymerization stabilizer.

A relief printing plate can be produced, for example, by using a transparent reproduction image template, For example, a negative film is placed on a sheet of glass that is permeable to actinic light, the negative film is covered with an actinic light transmitting film such as a polyester film is taking the photosensitive composition on the film

Formation of a 0.1mm to 10mm thick layer is deposited, a substrate or carrier material, such as a polyester film according to that in DT-OS 20 29 238 described method and the device described there is placed on the layer, one for actinic light-permeable glass plate is placed on the carrier material, the entire arrangement with actinic light is irradiated, first from the side of the carrier material and then from the side of the Negative film or simultaneously from the side of the substrate and the side of the negative film or, when using metallic carrier materials or opaque carrier materials, from the side of the Negative film takes place, the glass panes, the negative film and the film covering the negative film from the Arrangement are removed, after which the unexposed areas of the layer are washed out and the obtained printing plate treated with an aqueous solution or emulsion according to the invention and the entire relief printing plate is post-exposed.

The treatment according to the invention can also be used in the production of various relief structures, such as used by highlighted fonts and name tags.

In the examples below, the parts indicated are parts by weight, unless otherwise specified is stated.

example 1

Under an atmosphere of gaseous nitrogen, 3 mol of propylene glycol, 2 mol of ethylene glycol, 2.5 mol of fumaric acid and 2.5 mol of adipic acid at a maximum temperature of 190 ⁰ C for about 10 hours in the presence of 0.5 g of p-toluenesulfonic acid as a catalyst and 0.2 g of hydroquinone reacted as an anti-gelling agent, whereby an unsaturated polyester with an average molecular weight of 2240 and an acid number of 25 was formed. To 100 parts of the unsaturated polyester, 25 parts of diethylene glycol dimethacrylate, 15 parts of diacetone acrylamide, 1 part of benzoin ethyl ether and 0.1 part of hydroquinone were added to obtain a photosensitive composition.

A negative film for a newspaper of 390 mm × 550 mm was placed on a 10 mm thick, transparent glass plate. Then the negative film was covered with a cover film made of polyethylene terephthalate 12 microns thick, and the photosensitive paste was applied to the cover film with the aid of a squeegee to form a 0.8 mm thick layer of the photosensitive composition. One side of a polyethylene terephthalul film bushing 200 microns thick was covered with an epoxy adhesive (obtained by mixing an epoxy resin with a polyamide resin as a resin in a ratio of 1: 1 by weight) to a thickness of about 10 microns and the coated side of the Film base was nufkuschicrt on the photosensitive mother layer. Then a 5 mm thick, transparent glass plate was placed on top. From the side of the filin base, the entire arrangement was exposed for 30 seconds to 10 20 W UV fluorescent lamps arranged in parallel, which were arranged at a distance of 5 cm from the gltis. The arrangement was then exposed from the side of the Ncgnllvfllms for 3 minutes with the same light source that had been used before, at a distance of Scm. After exposure, the two glass panes and the polyester film were removed and the photopolymerized layer on the polyester film base was sprayed for 2 minutes under a pressure of 1.5 kg / cm ² with a 1.0% aqueous borax solution around the unexposed areas to wash out.

Each of the relief plates thus obtained was immersed in the various in Table 1 for 30 seconds indicated aqueous solutions immersed, dried and then 15 minutes with the above post-exposed light source described to a

ίο To get relief printing plate for a newspaper.

The sides of the relief images and the surfaces of the polyester film base of the relief printing plate obtained were not viscous. The duration of the post-exposure at which the viscosity or the stickiness on the sides of the Relief images and on the surface of the film base of the relief printing plate could no longer be observed, is shown in Table 1. Rotary printing was carried out using the relief printing plate obtained for a newspaper. carried out, with about 500,000

Ze prints with high quality without any deformation and damage to the relief images were made.

Preparation of the paraffin wax emulsion

composition

Parts by weight

Paraffin wax 57.2 ° C 30

30. Surfactant

(Sorbitan monostearate) 3

Surface active agent

(Polyoxyethylene sorbitan

monostearate) 3

The paraffin wax emulsion was prepared by keeping the mass at 6O ⁰ C, 64 parts by weight of water at 60 ⁰ C were gradually added with vigorous stirring and stirring was continued until the temperature of the mixture had cooled to room temperature, and by the emulsion obtained was then diluted to 10 times the original volume with water or one of the aqueous solutions given in Table 2.

Example 3

3 mol propylene glycol, 2 mol ethylene glycol, 2.5 mol I'umurstUirc and 2.5 mol phthalic anhydride were in polycondensed in the same way as in Example I, wherein

such an unsaturated polyester mil an average Molecular weight of 1870 and a Snurc / .nhl of 30 was obtained. 100 parts of the unsaturated polyester obtained were 10 parts of Tetrullthylcnglykoldiacrylnt, 30 parts of diethyl glycol dimethucry · Im, I part of benzene isopropyl ether and 0.1 part of hydroquinone given to produce a light sensitive material. In the same way as in Example I was made exposed the photosensitive composition obtained to form Rcliefbildcrn and to produce a

(> o Rclicfplattc cleared of unexposed areas See, the surface of the thus obtained Rclicfpluttc was with the Waehsomul · given below sion coated by spraying, dried and then / to form a printing plate during a

(15 minutes with a 3-KW-1 perforated square lamp at a distance of 60 cm from the insulating plate. The ropes of the reliefs of the plate and the surface of the carrier were not

7UO 030/227

viscous. Clear and precise prints were obtained using these printing plates.

Preparation of the wax emulsion

composition

Weight parts

Carnauba wax
Polyoxyethylene stearate
Ascorbic acid
water

10 3 1

86

The wax emulsion was prepared by heating the mixture to 100 ^° C. with vigorous stirring and continuing the stirring until the temperature had cooled to room temperature.

Example 4

60 parts by weight of polyvinyl alcohol with a degree of saponification of 85, 30 parts by weight of triethylene glycol dimethacrylate, 20 parts by weight of 2-hydroxyethyl methacrylate, 1 part by weight of benzoin methyl ether, 0.05 GeTable 1
Aqueous solution

parts by weight of hydroquinone and 200 parts by weight of water were mixed thoroughly to create a photosensitive: To manufacture material. Then a spacer with a thickness of 0.2 mm was placed on a glass plate and unc the obtained photosensitive material was then: poured and dried with warm air, whereby a 0.2mm thick photosensitive material plate; was formed. The plate was made to a 0.3 mm thick Aluminum plate with the help of an adhesive (solution

ίο of polyvinyl butyral in butyl acetate, tetra fuel content 3ί Wt .-%) and the resulting plate was placed in a vacuum frame and for one minute through a negative film with a water-cooled high pressure mercury lamp of 3 KW into one Exposed at a distance of 60 cm. After washing out the unexposed areas with water at 50 ° C the plate was immersed in the solution according to Example Experiment 15 for 30 seconds, then dried and post-exposed for one minute with the previously used light source. The received! Offset printing plate resulted in high quality imprints compared with a plate that did not match de Paraffin wax emulsion had been treated.

Experiment water-soluble polymeric compound (% by weight)

Reducing agent
(Wt .-%)

Time (min.)

1 Sodium alginate 2 Sodium alginate 3 Sodium alginate 4th Sodium alginate 5 Sodium alginate 6th Gum arabic 7th Gum arabic 8th Gum arabic 9 Gum arabic 10 Gum arabic 11th Gum arabic 12th Gum arabic 13th Gum arabic 14th Gum arabic 15th Gum arabic 16 Gum arabic 17th Gum arabic 18th Gum arabic 19th Carboxymethyl cellulose with a Dietary factor of 0.8 20th Gum arabic 21 Curboxyl ethyl cellulose with a Reason of suspicion of 0.8 22nd dcsgl. 23 the same 24 Gum arabic 25th Polyvinyl alcohol with a soap level of 85% 26th the same 27 Hydroxyllthylcellulo.se with a Prevention factor of 1.5 28 the same 29 dcsgl. 30th
31 the same
the same

0.5 ascorbic acid

0.5 thiourea

0.5 allyl thiourea

0.5 methylthiourea

1.5 acetylthiourea

1.5 thiosemicarbazide

1.5 phenylthiourea

1.5 acetylthiourea

2.0 N.N'-methylethylthio-

urea

2.0 N.N-diacctylmethylthio-

urea

1.5 tetiaallylthiourea

1.5 glucose

2.0 lactose

2.0 mannose

4.0 galactose

5.0 maltose

1.5 ascorbic acid

1.5 ethylenedium intetracetate

0.5 ethylenedium tetressig

sütiro potassium salt

2.0 oxalic acid

0.5 Hydrogen Oxide

0.5 Niurlumoxuliu

0.5 Knliiitmhiosulfiu

3.0 ammonium thlosulfate

0.5 nutrlumthiosulfai

0.5 oxulslture

1.0 Ammonlumihlosulful

I ₁ O stunnorid

1.0 stunnobi'omid

1.0 forrochloride

1.0 Fen'oncetut

0.5
1.0
1.0
1.0
1.0
0.5
0.5
1.0
1.0

1.0

1.0
1.0
1.0
1.0
1.0
1.0
0.5
0.5
1.0

0.5
1.0

1.0
I ₁ O
1.0
1.0

0.5
1.0

0.5
0.5

1.0
ι η

3.0 3.0 2.5 3.0 3.0 3.0 6.0 5.0 4.0

3.5

5.0 3.0 2.5 3.5 5.5 3.0 2.5 3.0 6.0

4.0 5.0

6.0 5.5 4.0 2.5

2.5 3.5

2.0 2.5 3.5 in

11th continuation Water soluble polymers 22 63 connection a number 2.0 2.0 Table 2 Reducing agent 804 time 12th 0.5 time attempt (Wt .-%) average molecular weight of Aqueous solution (Min.) (Min.) I. Polyethylene glycol with a number 2.0 20000 Ver None (water) b - 5.0 32 average molecular weight of the same search Stannous chloride 2.5 0.5 20000 without treatment 1 Stannosulfate 3.5 2 Stannoaceuu 3.0 7.0 33 Polyvinylpyrrolidone with a number - 0.5 3 Ferrobromide Reducing agent 2.5 0.5 average molecular weight of 4th Ferroammonium sulfate (Wt .-%) 4.0 40000 5 Allyl thiourea 3.5 3.5 34 Polyethylene glycol with b Methyl thiourea Ascorbic acid 3.0 1.0 J Acetylthiourea 4.5 B. Phenyhiourea 4.0 4.0 35 9 Thiosemicarbazide the same 2.5 > 3C comparison 10 Triallyl thiouritis 3.5 11th glucose 3.0 12th Lactose 3.0 13th Ascorbic acid 3.5 14th Ethylcndiaminlcira- 4.0 15th acetic acid 16 Ethylenedium intrac- 4.0 cssigslUirc-Kaliumsal /. Stannous chloride 17th Oxalic acid 4.5 Sodium Hydrogenoxalai 3.5 18th Potassium oxalutene 5.0 19th Niitritimihiosuirat 5.5 20th Culcium ihiosulfate Potassium thiocyanate 4.5 21 Ammoniuimliiosulfal 3.0 22nd Nuirium thiocyutuii 4.0 23 Kuliumthlocyunut 3.5 24 Caleiumthioeyumil % By weight 5.0 25th 2 B 0.5 0.5 0.5 0.5 1.0 1.0 0.5 0.5 1.0 0.5 0.5 1.0 1.0 0.5 1.0 1.0 1.0 1.5 1.5 2.0 0.5 1.0 0.5 0.5 0.5

Claims (1)

Patent claims: 1. Process for the production of a relief plate by imagewise exposing a photosensitive recording material to a photopolymerizable one Layer, developing the recording material into a relief by dissolving out the unexposed areas of the photopolymerizable Layer and post-exposure of the resulting relief, characterized in that before the Post-exposure with an aqueous solution or an emulsion is treated, the 0.05 to 60 wt .-% of at least one membrane-forming polymer Compound or a wax and a thiourea compound of the formula