PL228357B1 - Paper layer for stream printing - Google Patents

Description

(21) Filing number: 405943

Patent Office of the Republic of Poland (22) Application date: November 6, 2013 (51) Int CI.

B41M 5/52 (2006.01) D21H 19/06 (2006.01) D21H 19/84 (2006.01) D21H 21/16 (2006.01) (54)

Inkjet paper coating

(73) The right holder of the patent: ARCTIC PAPER KOSTRZYN SPÓŁKA AKCYJNA, Kostrzyn nad Odrą, PL (43) Application was announced: May 11, 2015 BUP 10/15 (72) Inventor (s): JANUSZ RAWDANIS, Kostrzyn nad Odrą, PL GRZEGORZ MARIAŃCZYK, Lodz, PL (45) The grant of the patent was announced: 30/03/2018 WUP 03/18 (74) Representative: thing, pat. Wojciech Zieliński

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PL 228 357 B1

Description of the invention

The present invention relates to the coating of ink-jet paper and its use.

The inkjet technique, which was initiated in the second half of the twentieth century, created a demand for paper of the appropriate quality. In the last years of the last century, special coatings adapted to receiving ink during printing began to be used in order to improve the print quality. This goal was achieved by using hydrophilic coatings on paper backings using silica gel, polyvinyl alcohol and / or carboxymethyl cellulose plus a low molecular weight cationic polymer (e.g. modified polyethyleneimine, polyvinylamine, organic amide-formaldehyde condensation product, polyacrylamide Paper and Board) [Handbook of Paper and Board). Edited by H. Holik, WILEY-VCH Verlag GmbH & Co. KgaA, 2006, Weinheim, pp. 98-98], Patent and specialist literature gives many versions of inkjet paper coatings.

It is known from US Patent No. 4,554,181 an inkjet paper backing having a two-component cationic surface. The cationic polymers used in the practice of this invention are characterized in that the cationic groups are accessible to the anionic components of the ink dye (s). The second source of cations according to this description are multivalent metal salts of II, III and transition group of the periodic table, having a solubility greater than 5 g in 100 ml of water at 23 ° C. Because scorch paper not suitable salts are Fe ^2, Fe + ³ and Cu + ^2. It has been disclosed that salts of strong acids (including hydrochloric) can be used as binders for the anionic parts of the ink, but the anionic parts of these strong acids accelerate the decomposition of the paper.

From the Japanese description of the invention application JP 2001315433 a coating for inkjet paper is known, which consists of 2-10 parts by weight of an inorganic electrolyte (preferably sodium chloride), 0-100 parts by weight of a porous adsorbent material (e.g. silica grains) to 100 parts by weight of a hydrophilic vinyl acetal resin or resin. The mixture is prepared on a polyethylene film and then transferred to paper.

The inkjet coating of the present invention, consisting of sodium aluminosilicate, sodium chloride, polyvinyl alcohol, aliphatic polyamine and polyaluminium chloride, with hydrophytic properties, is characterized by a weight ratio of sodium chloride and polyaluminium chloride to aliphatic polyamine being 9.6: 1. The paper coating is applied by machine to the paper backing on one or both sides.

Surprisingly, despite such a high content of chloride and sodium, the paper coated with the coating according to the invention on the one hand is durable and on the other hand provides good print quality. Moreover, it is suitable for direct, mechanical application to paper with standard machines. In laboratory tests of papers with inkjet coatings, the following parameters were measured: print homogeneity (mottling), print show through, bleeding, optical density. Paper with the coating according to the invention was prepared on the size press of a papermaking machine. The evaluation of the coatings consisted of evaluating the printing of the paper using:

a) industrial INK JET inks (OCE) and piezoelectric head of an office printer (Epson Stylus),

b) Kodak Versmark industrial printer,

c) OCE industrial printer.

The test results are presented in the form of graphs in the drawing, where the graph of Fig. 1 shows the uniformity of black printing on a KODAK printer, the graph of Fig. 2 - uniformity of cyan printing on a KODAK printer, graph Fig. 3 - optical density of black on a KODAK printer, graph of Fig. 4 - turquoise optical density on a KODAK printer, diagram fig. 5 - print piercing through the paper after printing with a KODAK printer, diagram fig. 6 - optical density of black print on an Epson Stylus printer, diagram fig. 7 - uniformity of black print on an Epson Stylus printer Figure 8 shows the sharpness of the print on an Epson Stylus printer, and graph Figure 9 shows black and yellow show through the paper after printing on an Epson Stylus printer. The symbols in the graphs mean: F 83 - coated paper according to the invention, APP standard paper, Mondi reference inkjet paper, CL3 - other tested product. All graphs and analysis were done using the IA VERITY software.

The results confirm a print quality comparable to that of the reference inkjet paper. There was also no accelerated degradation of the paper.

PL 228 357 Β1

The invention is illustrated by the following embodiment.

Example.

Water is poured into the mixer with a high-speed stirrer in an amount depending on the desired concentration of the coating mixture, and then the ingredients are added in the indicated amounts:

ingredient trade name Dry quantities substances in g / 100 g of the mixture Weight percent individual ingredients Sodium aluminosilicate Zeocros PF 2 16.49% Sodium chloride evaporated salt 6.25 51.54% Polyvinyl alcohol PVOHBP-05 3 24.74% Aliphatic polyamine CATIOFAST 160 0.67 5.50% Polyaluminium chloride ΡΑΧ 18 0.21 1.73%

The next ingredients are added after the previous one is thoroughly dissolved in the mixture.

The paper web will be coated with the mixture on a paper machine or a coater on one or both sides. The basis weight of the paper obtained: 70-160 g / m ^2, coating weight: 2-4 g / m ^2.

Claims (2)

1. A coating of inkjet paper consisting of sodium aluminosilicate, sodium chloride, polyvinyl alcohol, aliphatic polyamine and polyaluminum chloride, with water-repellent properties characterized in that the weight ratio of sodium chloride and polyaluminium chloride to aliphatic polyamine is 9.6: 1. 2. Use of the inkjet paper coating according to claim 1 for machine application to single or double sided paper.