NL8003326A - BASIC MATERIAL FOR OFFSET PRINTING PLATES AND METHOD FOR MANUFACTURING THIS MATERIAL - Google Patents

Description

ft ,. -i Ï a to 0546

Basic material for offset printing plates, as well as a method for manufacturing this material.

The invention relates to a base material for offset printing plates, which are manufactured from this base material according to the so-called silver salt diffusion method, and to a method for the production of such a base material.

Such a base material consists of an aluminum strip, in particular a pure aluminum strip, which strip on one surface side has a well-defined surface roughness and an aluminum oxide layer on the surface. In the said silver salt diffusion method for producing offset printing plates, the latent negative image of the printing image to be formed is first established on a photo paper by appropriate exposure. The photo paper (negative paper) thus exposed is now passed together with the plate base material through a basic developer fixing salt solution such that a thin liquid layer is introduced between the exposed silver salt layer of the photo paper and the offset printing plate surface to be formed. "The silver dissociated by the exposure in the photo paper is dissociated to silver. At the same time, the unexposed parts of the silver salt are dissolved and transferred by the fixing component of the solution (eg, sodium thiosulfate) under complex formation. on the offset printing plates base material, where - due to the different location of aluminum and silver in the voltage series - the silver of the dissolution-removed silver-salt complex in the form of a positive image on the surface of the Offset printing plates base material is deposited The offset printing plate obtained in this way is now turned to 5 0 · treated its printing surface with a weak organic acid and finally dried.

Before performing the offset printing, the printing plate is first moistened with water, the water not being absorbed by the silver-coated areas of the printing plate surface 800 3 3 26 - 2 - and only a water film is formed in the silver-free surface areas . The oily printing ink is then applied, which in turn is absorbed only by the silver-coated areas of the printing plate surface. This ink image is then produced according to the known principle of the offset printing via an intermediate carrier on the printing carrier, i.e. on the paper to be printed, transferred,

One of the aims of the defined surface roughness of the offset printing plate is to ensure the so-called "water house-10" attitude of the surface to the required degree, that is to say, to ensure that during the moistening of the printing plate surface is formed in the silver-free places as evenly as possible water film.

The quality of the offset-15 printing plates manufactured in this way is on the one hand due to the soundness of the range of printing quality, but on the other hand also by the service life of the plates, that is to say by the number of the offset printing plate to be produced. pressures determined.

The said surface roughness can be indicated by the center roughness value R and the average roughness depth Q te at Rz, each measured parallel and perpendicular to the longitudinal direction of the aluminum strip. The measuring ranges for these roughness depth measurements have lengths of 4 mm and are each divided into 5 sub-areas of 0.8 mm.

The mean roughness value R is understood to mean the arithmetic mean of the absolute sizes of all distances of the recorded roughness profile from the centerline of this roughness profile within the measuring range. By roughness depth is meant the distance perpendicular to this center line between the highest and the deepest point of the roughness profile within a sub-area. The average roughness depth R is the average value of the roughness depths determined from these 5 subareas of a measuring range.

With a known standard material for offset printing plates 800 33 26 - 3 - V- ** - of this type, e.g. the surface roughness is effected by brushing, after which the alumina layer on the surface is formed without action by the action of the air oxygen. For example, in this known standard material, the surface roughness, measured perpendicularly to the longitudinal direction of the belt, shows a center roughness value R of 0.47 micrometers and an average roughness a depth R of 4.31 micrometers, as well as, parallel to

2S

measured from the longitudinal direction of the tape, a center roughness value R of 0.73 micrometers and an average roughness depth of 3.82 micrometers. The life of the offset printing plates made from such a known base material corresponds to about 10,000 proof prints at medium printing quality.

The object of the invention is first of all to provide a base material for offset printing plates, wherein the offset printing plates produced from this base material according to the silver salt diffusion process guarantee a high printing quality as well as relatively long service lives.

A 20 bit problem is solved in the base material according to the invention, in that the aluminum oxide layer is produced by galvanic anodization and a surface weight 2 of 0.2-2.0 g / m, in particular 0.4-1, 0 g / m, measured in accordance with BIR-50944 and because the surface roughness -25 measured perpendicular to the longitudinal direction of the belt - medium roughness values of 0.15-0.50 micrometre and average roughness depths of 1.0-3, 0 micrometers, as well as - measured parallel to the longitudinal direction of the belt - medium roughness values of 0.05-0.30 micrometers and average roughness depths of 0.4-2.5 micrometers.

Another object of the invention is to provide a particularly effective method for the manufacture of the offset printing plates according to the invention.

Bit problem is solved in the method according to the invention, in that the surface roughness on the surface of the aluminum strip is brought about by compaction using a roller, which has a given surface structure. possession. In addition, this pressing can take place in a suitable manner when the aluminum tape is rolled out to its final thickness.

The invention is explained in more detail by means of an example:

A pre-rolled aluminum strip of quality Al 99 ° 0 according to DIN 1712, with a width of 1100 mm and a thickness of 0.6 mm, was annealed for 8 hours at 550 ° C and then in rolling tools, the rollers of which had a rough grinding surface. rolled up to 0.1 mm in three consecutive rolling operations. This aluminum strip was then subjected to a DC anodization in a strip anodizing device with an electrolyte consisting of 20% sulfuric acid with a current density of about 2 A / dm.

The anodization was carried out in such a way that the surface weight of the aluminum oxide layer formed according to DIN 50944 according to the DC anodization was about 0.8 g / m, which corresponded to an aluminum oxide layer thickness of about 0.25 micrometer.

The surface roughness of the offset printing plates base material thus obtained showed, measured perpendicular to the belt length, a center roughness value R of 0.29 micrometers.

Sl 25 ter and an average roughness depth of R of 2.07 micrometers, measured, parallel to the tape length direction, a center roughness value R & of 0.15 micrometers and an average roughness depth R of 0.88 micrometers.

z

The service life of the offset printing plates produced from this base material was surprisingly long and corresponded to approximately 25,000 proofs with very good printing quality.

800 33 26

Claims (4)

Basic material for offset printing plates, consisting of an aluminum strip, in particular a strip made of pure aluminum, which has a defined surface roughness and an aluminum oxide layer present on the surface, on at least one side of the surface note that the alumina layer has been produced by galvanic anodization and has a surface weight of 0.2-2.0 g / m, measured according to DIN 50944, and that the surface roughness - ~ perpendicular to the longitudinal direction of the belt 10 - medium roughness values of 0.15-0.50 micrometre and average roughness depths of 1.0-3.0 micrometre, as well as - measured parallel to the belt length direction - center roughness values of 0.05-0.30 micrometre and average roughness depths of 0.4 -2.5 micrometers. Base material according to claim 1, characterized in that the aluminum oxide layer has a surface weight of 0.4-1.0 2 g / m. A method of preparing base material for offset printing plates according to claim 1 or 2, characterized in that the surface roughness on the surface of the aluminum strip is achieved by pressing using a roller with a defined surface structure, 4. Method according to claim 3, characterized in that the pressing of the surface roughness by means of a roller takes place during the rolling out of the aluminum strip to its final thickness. 800 33 26