CN105733360A - Permeable ink applicable to ceramic surface printing - Google Patents

Abstract

The invention discloses permeable ink applicable to ceramic surface printing and relates to the technical field of architectural ceramic decoration. The permeable ink applicable to ceramic surface printing consists of the following components in parts by weight: 30-75 parts of ruthenium metal organic compound, 20-75 parts of solvent, 0.1-4 parts of penetrant and 0.1-4 parts of complexing agent. The permeable ink applicable to ceramic surface printing disclosed by the invention can be directly sprayed to the ceramic surface by an inkjet printer, the ink has pure color, the permeation depth can reach 1.7-2.8mm, and a glaze penetrating decoration effect with high resolution and strong stereoscopic impression is realized.

Description

A kind of infiltration ink that can be used for ceramic surface printing

Technical field

The present invention relates to Prospect of Decoration Technology in Building Ceramics field, particularly relate to a kind of can be used for ceramic surface print Infiltration ink.

Background technology

From ceramic ink jet printing technology universal since, Full-glazed tile is with its glaze pattern texture-rich, texture The advantages such as design easy exploiting, gradually carve up the polished bricks market share, once deeply blue or green by ceramic industry and consumer Look at.But, As time goes on, Full-glazed tile product homogeneity, the shortcoming such as the most wear-resisting the most gradually expose. Oozing the appearance of colored ink, the development for polished bricks provides a new opportunity.Though tradition polished bricks wearability Far above Full-glazed tile, but there is the deadly defect that pattern is deficient, and ooze colored ink by application, throwing can be made Light brick presents and entirely throws the pattern grain decorating effect that glaze compares favourably.

Abroad, Italy is U.S. high began to research and development from 2003 and oozes colored ink.In recent years, through independent research, Colored ink product is also oozed releasing one after another in Ming Dynasty's science and technology and the domestic enterprise such as Mai Ruisi.The Guangzhou in June, 2015 In ceramic industry exhibition, oozing colored ink and receive much concern, the enterprise such as Ming Dynasty's science and technology, Mai Ruisi, Dow opens up the most one after another Go out to ooze colored ink and relevant tile product.

At present, in infiltration ink application process, generally redness is permeated ink and superposes with blue infiltration ink Printing and substitute black, but this superposition printing can cause infiltration ink color development the purest, length of penetration is inadequate, Length of penetration typically only has 0.5-1.0mm, affects the decorative effect of pattern texture.

Summary of the invention

For solve above-mentioned technical problem, the invention provides a kind of have ooze colored effect, can be used for spraying black Color can be used for the infiltration ink that ceramic surface prints, and concrete scheme is as follows:

A kind of infiltration ink that can be used for ceramic surface printing, is made up of following parts by weight ingredient:

Preferably, described ruthenium metallo-organic compound is oil-soluble to have isomerization or have unsaturated double-bond Organic carboxyl acid ruthenium salt compound.

Further, described organic carboxyl acid ruthenium salt compound is by can the solubility ruthenium salt of color development and organic carboxyl acid Reacting by heating is prepared from.

Further, described solubility ruthenium salt is in ruthenium trichloride, acetic acid ruthenium and nitrosyl nitric acid ruthenium At least one.

Further, described organic carboxyl acid is selected from C₄～C₁₈At least organic carboxyl acid with a carboxyl.

Preferably, described ruthenium metallo-organic compound one in aphthenic acids ruthenium or isooctyl acid ruthenium.

Preferably, described penetrating agent be in nonionic surfactant or anion surfactant at least A kind of.

Preferably, described penetrating agent is selected from fatty alcohol-polyoxyethylene ether, OPEO, nonyl At least one in phenol polyethenoxy ether and phosphate compounds.

Preferably, described solvent is selected from chloroform, dichloromethane, ethyl acetate, butyl acetate, just At least one in butanol, normal hexane, normal heptane, methyl tertiary butyl ether(MTBE), diisopropyl ether and isobutanol.

Preferably, described chelating agent is selected from disodiumedetate (EDTA), diethanolamine, three ethanol At least one in amine.

The preparation method of the above-mentioned infiltration ink that can be used for ceramic surface printing is as follows:

1) the metal-organic preparation of ruthenium: can solubility ruthenium salt and the organic carboxyl acid of color development press ruthenium ion and The mol ratio 1:2-3 mixing of carboxyl, reacting by heating, it is prepared as oil-soluble organic carboxyl acid ruthenium salt compound；

2) solvent, penetrating agent and chelating agent are sufficiently mixed through high-speed stirred, are slowly added to organic carboxyl acid ruthenium salt Compound, high-speed stirred prepares mixed liquid；

3) secondary grinds: by step 2) gained mixes that liquid carries out ball milling, sand milling grinds, and obtain black can The infiltration ink printed for ceramic surface.

The infiltration ink that can be used for ceramic surface printing of present invention offer can be by ink-jet printer by this ink Being directly injected to ceramic surface, ink color development is pure, and length of penetration is up to 1.7-2.8mm, and presents point Resolution is high and third dimension is strong oozes colored decorative effect.

Detailed description of the invention

In order to more fully understand the technology contents of the present invention, below in conjunction with the specific embodiment technology to the present invention Scheme is further described and illustrates.

Embodiment 1

Ruthenium trichloride is mixed with aphthenic acids 1:3 in molar ratio, stirring reaction at a temperature of 120 ± 5 DEG C, system Standby one-tenth aphthenic acids ruthenium；

After 61.4 parts of normal hexane, 1.5 parts of fatty alcohol-polyoxyethylene ether and 1.1 parts of triethanolamine high-speed stirred, Being slowly added 36 parts of aphthenic acids rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 2

Ruthenium trichloride is mixed with aphthenic acids 1:3 in molar ratio, stirring reaction at a temperature of 120 ± 5 DEG C, system Standby one-tenth aphthenic acids ruthenium；

After 41.7 parts of normal hexane, 1.8 parts of fatty alcohol-polyoxyethylene ether and 1.5 parts of triethanolamine high-speed stirred, Being slowly added 55 parts of aphthenic acids rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 3

Acetic acid ruthenium is mixed with aphthenic acids 1:2.5 in molar ratio, stirring reaction at a temperature of 110 ± 5 DEG C, system Standby one-tenth aphthenic acids ruthenium；

After 20 parts of dichloromethane, 1.8 parts of NPEs and 0.1 part of diethanolamine high-speed stirred, Being slowly added 30 parts of aphthenic acids rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 4

Nitrosyl nitric acid ruthenium is mixed with aphthenic acids 1:2 in molar ratio, stirring reaction at a temperature of 160 ± 5 DEG C, It is prepared as aphthenic acids ruthenium；

After 75 parts of ethyl acetate, 4 parts of OPEOs and 3 parts of EDTA high-speed stirred, slowly Adding 75 parts of aphthenic acids rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 5

Ruthenium trichloride is mixed with isooctyl acid 1:3 in molar ratio, stirring reaction at a temperature of 120 ± 5 DEG C, system Standby one-tenth isooctyl acid ruthenium；

After 47.2 parts of n-butyl alcohol, 1.6 parts of alkylphenol polyoxyethylene and 1.2 parts of triethanolamine high-speed stirred, Being slowly added 50 parts of isooctyl acid rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 6

Ruthenium trichloride is mixed with isooctyl acid 1:3 in molar ratio, stirring reaction at a temperature of 120 ± 5 DEG C, system Standby one-tenth isooctyl acid ruthenium；

By 57.5 parts of ethyl acetate, 1.6 parts of fatty alcohol-polyoxyethylene ether and 0.9 part of triethanolamine high-speed stirred After, it being slowly added 40 parts of isooctyl acid rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 7

Acetic acid ruthenium is mixed with isooctyl acid 1:2.5 in molar ratio, stirring reaction at a temperature of 110 ± 5 DEG C, system Standby one-tenth isooctyl acid ruthenium；

After 20 parts of dichloromethane, 1.8 parts of NPEs and 0.1 part of diethanolamine high-speed stirred, Being slowly added 75 parts of isooctyl acid rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 8

Nitrosyl nitric acid ruthenium is mixed with isooctyl acid 1:2 in molar ratio, stirring reaction at a temperature of 160 ± 5 DEG C, It is prepared as isooctyl acid ruthenium；

After 75 parts of ethyl acetate, 4 parts of OPEOs and 3 parts of EDTA high-speed stirred, slowly Adding 30 parts of isooctyl acid rutheniums, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 9

Ruthenium trichloride is mixed with aphthenic acids 1:2.5 in molar ratio, stirring reaction at a temperature of 160 ± 5 DEG C, It is prepared as aphthenic acids ruthenium；

By 35 parts of ethyl acetate, 20 parts of butyl acetates, 10 parts of methyl tertiary butyl ether(MTBE)s, 1 part of fatty alcohol polyoxy After vinyl Ether, 1 part of OPEO and 1 part of EDTA high-speed stirred, it is slowly added 50 parts of cycloalkanes Acid ruthenium, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

Embodiment 10

Ruthenium trichloride is mixed with isooctyl acid 1:2.5 in molar ratio, stirring reaction at a temperature of 160 ± 5 DEG C, It is prepared as isooctyl acid ruthenium；

By 15 parts of ethyl acetate, 40 parts of butyl acetates, 10 parts of methyl tertiary butyl ether(MTBE)s, 1 part of fatty alcohol polyoxy After vinyl Ether, 0.5 part of OPEO and 1 part of EDTA high-speed stirred, be slowly added 50 parts different Octanoic acid ruthenium, high-speed stirred prepares mixed liquid；

Gained mixing liquid and carries out ball milling and sand milling grinding, the ceramic surface that can be used for preparing black prints Infiltration ink.

That above example 1-10 is prepared can be used for the infiltration ink employing ceramic ink jet that ceramic surface prints Printing technology respectively paint application in Ceramic Tiles, the Ceramic Tiles made is carried out the ink bleed degree of depth (unit: Mm) detection, result is as shown in table 1:

Table 1

The above only further illustrates the technology contents of the present invention with embodiment, in order to reader is easier to Understand, but do not represent embodiments of the present invention and be only limitted to this, any technology done according to the present invention extend or Recreation, is all protected by the present invention.

Claims (10)

1. one kind can be used for the infiltration ink that ceramic surface prints, it is characterised in that by following parts by weight ingredient Composition:

The infiltration ink that can be used for ceramic surface printing the most according to claim 1, it is characterised in that Described ruthenium metallo-organic compound is the oil-soluble organic carboxyl acid ruthenium having isomerization or having unsaturated double-bond Salt compound.

The infiltration ink that can be used for ceramic surface printing the most according to claim 2, it is characterised in that Described organic carboxyl acid ruthenium salt compound by can color development the preparation of solubility ruthenium salt and organic carboxyl acid reacting by heating and Become.

The infiltration ink that can be used for ceramic surface printing the most according to claim 3, it is characterised in that At least one in ruthenium trichloride, acetic acid ruthenium and nitrosyl nitric acid ruthenium of described solubility ruthenium salt.

The infiltration ink that can be used for ceramic surface printing the most according to claim 3, it is characterised in that Described organic carboxyl acid is selected from C₄～C₁₈At least organic carboxyl acid with a carboxyl.

The infiltration ink that can be used for ceramic surface printing the most according to claim 5, it is characterised in that Described ruthenium metallo-organic compound one in aphthenic acids ruthenium or isooctyl acid ruthenium.

The infiltration ink that can be used for ceramic surface printing the most according to claim 1, it is characterised in that Described penetrating agent is at least one in nonionic surfactant or anion surfactant.

The infiltration ink that can be used for ceramic surface printing the most according to claim 7, it is characterised in that Described penetrating agent is selected from fatty alcohol-polyoxyethylene ether, OPEO, NPE With at least one in phosphate compounds.

The infiltration ink that can be used for ceramic surface printing the most according to claim 1, it is characterised in that Described solvent selected from chloroform, dichloromethane, ethyl acetate, butyl acetate, n-butyl alcohol, normal hexane, At least one in normal heptane, methyl tertiary butyl ether(MTBE), diisopropyl ether and isobutanol.

The infiltration ink that can be used for ceramic surface printing the most according to claim 1, it is characterised in that At least one in disodiumedetate, diethanolamine, triethanolamine of described chelating agent.