DE2547862A1 - DYE PREPARATIONS - Google Patents

Description

SANDOZ Patent GmbH Case 150-3674

Loerrach

Dye preparations

The present invention relates to dye preparations for transfer printing and printing inks with particularly good printing properties, using particularly suitable binders, which dyes used in the transfer hold back less than previously used binder systems, and thus a higher color yield on the textile material to be dyed according to the principle of transfer printing than this with known ones Ink systems was previously possible.

From the German Offenlegungsschrift 1 771 813 it is known that transfer printing inks are produced with a large number of known printing ink binders can, regardless of the binder composition, a very high transfer rate of the applied dis-

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Allow persion dye during the transfer process.

It has now been found that, surprisingly, however, the type of binder or the composition of the Binder combination has a very large influence on the transfer rate of the dyes to be transferred and that even within a well-defined substance class of binders there are considerable differences in the Properties of printing inks made using such binders can occur.

It has also been found that, surprisingly, the presence of certain additives in the inventive Printing inks still further improvements can be made.

The present invention relates to dye preparations for transfer printing, especially transfer printing inks for printing on carrier materials for transfer printing based on organic solvents, which are characterized in that they contain polyvinyl butyral as a binder.

The present invention also relates to dye preparations of the aforementioned type which contain a binder based on polyvinyl butyral, which is soluble in or compatible with organic solvents is contained, which are further characterized in that they are a combination of highly dispersed Silicas (e.g. produced by hydrolysis of silicon tetrachloride in an oxyhydrogen flame) with cationic

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or ampholytic dispersants and wetting agents soluble in organic solvents.

These polyvinyl butyrals are known from the literature, for example in the "Encyclopedia of Polymer Science and Technology 1971 Vol. 14, pages 208 to 239 "described in more detail. They are also from the company publications of Farbwerke HOECHST via Mowital (No. 7111) and via Pioloform known from WACKER (No. 2188.707).

Polyvinyl butyrals are preferably used, which are industrially obtained by acetalization of butyraldehyde with polyvinyl alcohols (which in turn are obtained by saponifying polyvinyl acetate). This technical Polyvinyl butyrals contain at least 50% polyvinyl butyral itself, preferably more than 60% and particularly preferred between 69 and 84%.

Preferred polyvinyl butyrals are those which are commercially available in settings and where the following values are within the following tolerances are:

Polyvinyl butyral content 69 - 84%

Polyvinyl acetate 1 - .2%

Polyvinyl alcohol 12-27%

(Water content up to 3%)

It is these aforementioned technical polyvinyl butyrals that are particularly suitable as binders in transfer printing inks are, however, some representatives of these commercial products are particularly preferred.

It was found that commercially available types of polyvinyl butyral with the following compositions:

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a) Polyvinyl butyral 81 - 84% Polyvinyl acetate 1 - 2% Polyvinyl alcohol 12 - 16% (Water content up to 2%)

b) polyvinyl butyral 69 - 71% polyvinyl acetate 1 - 2% polyvinyl alcohol 24 - 27% (Water content up to 3%)

give particularly good dye yields.

The viscosities of the polyvinyl butyrals to be used according to the invention are generally between 2 and 200 cp (6% solution in methanol at 20 ^° C.).
The degree of polymerization is usually between and 70.

The degree of polymerisation of the polyvinyl butyral and the viscosity of the polyvinyl butyrals have a weaker influence on the dye yield; Higher-viscosity types show a slightly higher dye yield than low-viscosity types with the same chemical composition. Higher-viscosity products are also preferred because of the low level of interference in absorbent intermediate carriers and the more favorable viscosity of the ready-to-print inks.

Highly disperse silicas of the type mentioned above are also known from the literature and are described, for example, in the Degussa information documents "Aerosil for lacquers and paints", "Degussa products for

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die graphic industry "," Basics and applications of Aerosil, Part I _f Part III% "Aerosil R 972 for offset printing inks", "Synthetic silicas for letterpress inks".

Cationic or ampholytic dispersants or wetting agents that are soluble in organic solvents are mainly ß-coconut-amino-butyric acids, conversion products of fatty amines with at least 8 carbon atoms and ethylene oxide, propylene oxide or mixtures of both alkylene oxides with at least 4 mol of ethylene oxide per amine, Mixtures of cationic or amphalytic substances of the type mentioned above with non-ionogenic wetting and dispersing agents (which are soluble or compatible with solvents), or products with an analogous effect.

The presence of these gowns is a significant improvement in the application technology Overall behavior of the printing ink achieved. A reduction in pigment sedimentation during storage, a more even printout of larger areas without "pearls" and a shortening of the dispersion times is achieved using these additives.

It is particularly surprising that in organic solvents loose cation-active or ampholytic Dispersing agent in combination with highly dispersed Silica this essential improvement

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ranks the storage stability. Suitable cation-active compounds are the ß-coconut araine butyric acids, which are known under the trade name "Armeen Z" , or the fatty acid imidazolines, which are available under "Steinamin IM-OA or Steinamin IM-CA". Highly disperse silicas which are suitable are, for example, on the market under the trade names Aerosil 130 V, Aerosil R 972, Aerosil.

The printing inks according to the invention are produced in a manner known per se, with the aid of the devices customary in the printing ink industry, such as three cylinders, kneaders, sand mills, ball mills, etc., with the aid of which the disperse dyes used as the basis are dispersed together with the binder. The above-mentioned disperse dyes in pigment form can also be brought into easily dispersible form beforehand, in which case they only have to be dispersed in the binder with the aid of the dissolver. The preparation of the inks using preparations which contain the pigment in pre-dispersed form in a binder is _r possible.

The binder to be used according to the invention can also in unpigmented form in the primer for the intermediate carrier and in the top coat for protection of the pressure a \ if the intermediate carrier must be available.

Preferred disperse dyes are those whose The ablation curve between ISO and 220 ° is as even as possible get lost; the disperse dyes can

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The following chemical classes belong to J anthraquinoids Dyes, such as hydroxy and / or aminoanthraquinones, azo dyes, Quinophthalone dyes, azomethine dyes, stilbene dyes, nitrodiarylamino dyes, etc.

Disperse dyes whose melting point is above 140 ° are preferred. These are described, for example, in the Journal of the Society of Dyers and Colorists, Volume 70, pages 69-71 (1954) and in Volume 74, page 389 (1958). Finally, such dyes are preferably used whose molecular weight is less than 1000, thereby the migration resistance should be great enough to stable with the novel printing inks at room temperature, to produce storable and ironing real prints at temperatures below 120 ⁰ C. Such suitable disperse dyes are known for transfer printing. These are preferably water-insoluble dyes which are capable of staining polyester and cellulose fibers from aqueous dispersion. Polyamide or acrylonitrile fibers can also be dyed if necessary.

Instead of the disperse dyes, suitable optical brighteners or other auxiliaries and additives can also be used transferred to the substrate using this process.

The ratio of disperse dye to the invention Polyvinyl butyral binder can vary between 1: 0.5 and 1:10, the range from being preferred lsi to 1: 4.

Throughout the printing ink composition, this is polyvinyl butyral between 5 and 15%, preferably between 7 and 13%. At these concentrations, the

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Viscosity measured at the outlet time on the Ford cup 4 is generally between 35 and 45 seconds at 20 ⁰ C, the thus composed according to the invention printing inks may, depending on the printing speed with the below-mentioned solvents or solvent combinations to the optimum pressure viscosity, measured as the efflux time in Ford cup 4 at 20 ⁰ C, are set.

The added amounts of additives of the type mentioned above are generally less than 2%, but not less than 0.1%, based on the total formulation Mixing ratio of cation-active substance: highly disperse silica vary between 1: 9 and 9: 1 can and is preferably between 1: 3 and 3: 1.

The solvents to be used for the printing inks according to the invention are known; they are essentially the same, which are also used in printing inks based on cellulose esters or ethers. The solubility however, corresponding to the polyvinyl butyrals become low Alcohols and glycol ethers are preferred; esters and ketones can also be used and are used for modification depending on the printing speed and printing method.

When processing the printing inks according to the invention in flexographic printing, for example, ethanol or iso-propanol are used in combination preferred with ethyl glycol to protect the gummy creaks. In gravure printing can help achieve faster Drying can be worked with additives such as methyl acetate, ethyl acetate or acetone. They become slower in screen printing evaporating glycol ethers in combination with e.g. butanol or higher boiling esters are preferred.

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Transfer printing (from the intermediate carrier onto the substrate) is performed in known manner at temperatures between 150-250 ⁰ C. The intermediate carrier is preferably brought to a temperature between 210 ° and 230 ° and at the same time in close contact with the substrate, which also occur in vacuo can, wherein the substrate can be cooled on the side facing away from the intermediate carrier.

The following examples are intended to explain the invention however, do not limit the same. Parts are parts by weight or parts by volume, with each other are in the ratio of kg to liters. Percentages are percentages by weight and temperatures are in degrees Celsius specified.

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Example 1;

A printing ink is produced from the following components by grinding in a sand mill.

2.03 GT CI. Disperse Red 60 in pigment form 0.36 parts by weight Aerosil 130 V (highly dispersed silica) 0.36 parts by weight Armeen Z (ß-coconut butyric acid) 7.29 parts by weight polyvinyl butyral (composition: 69-71% polyvinyl butyral

1% polyvinyl acetate

24-27% polyvinyl alcohol, water content up to 3%) (trade name: Mowital B 60T)

13.72 pbw of ethyl glycol
76.24 parts by weight of ethanol

100.00 GT ..

The data of this printing ink are as follows:

Flow time in the Ford cup 4: 35-45 seconds Ratio pigment: binder = 1: 3.6

This printing ink was applied by gravure printing on coated paper. (Paper weight 60 g / m). After drying of the prints during 30 seconds applied to a fully automatic transfer press (Fa. Bemrose) on polyester fabric (Dacron 54) at 210 ⁰ C.

If one measures the color strength of the transfer dye, obtained according to this example, excellent color yields are found.

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If one uses instead of the C.I. Disperse Red 60 in pigment form a C.I. Disperse Blue 58 also in In the form of pigment in the above formulation, excellent color yields are also obtained.

Example 2:

A printing ink is prepared as described in Example 1 from:

3.52 GT CI. Disperse Red 60 in pigment form 0 _f 36 GT Aerosil 130 V
0.36 GT Army Z

12.64 parts by weight polyvinyl butyral (composition: polyvinyl butyral 82%; polyvinyl acetate 1-2% j polyvinyl alcohol 16%, remainder up to 1% water) (trade name Pioloform BL 16)

12.64 parts by weight of ethyl glycol
70.48 parts by weight of ethanol

100.00 GT

The data of this printing ink are as follows:

Ford cup 4 flow time: 35-45 seconds Pigment binder ratio = 1: 3.6

The application was carried out as described in Example 1. The dye yields are excellent.

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Will C.I. Disperse Blue 58 in pigment form instead of C.I. Disperse Red 60 in pigment form in the same If the formulation is used, good dye yields are also obtained.

Example 3t

A printing ink is prepared as described in Example 1 from:

CI. Disperse Red 60 in pigment form

Armies Z

Aerosil 130 V

Polyvinyl butyral (composition:

77-80% polyvinyl butyral 1-2% polyvinyl acetate

18% polyvinyl alcohol, the rest up to 4% water)

Trade name Pioloform BM 18 12.99 GT ethyl glycol
72.14 parts by weight of ethanol

3 , 09 GT 0 , 36 GT 0 , 36 GT 11 , 06 GT

100.00 GT

The data of this printing ink are as follows:

Ford cup 4 flow time: 35 to 45 seconds. Ratio pigment binder - 1: 3.6

The application is carried out as described in Example 1. The dye yields after transfer are outstanding.

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When using C.I. Disperse Blue 58 in pigment form instead of CI. Disperse Red 60 in pigment form good dye yields are also obtained.

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Claims (11)

- 14 - Case 150-3674 2547-8R? P. a t e. n. t a n. s. p. r plead 1. Dye preparations for transfer printing, especially transfer printing inks for printing of carrier materials for transfer printing based on organic solvents, thereby characterized in that they contain polyvinyl butyral as a binder. 2. Dyestuff preparation according to claim 1, characterized characterized in that they also contain a combination of highly dispersed silicas with cationic acids or ampholytic dispersing and wetting agents that are soluble in organic solvents In, contain. 3. Preparations according to claims 1 and 2, characterized marked that polyvinyl butyral types of the composition: Polyvinyl butyral 81-84% or 69-71% Polyvinyl acetate 1-2% Polyvinyl alcohol 12-16% or 24-27% (Rest water up to 3%) dissolved in organic solvents can be used as binders. 4. Preparations according to claims 1 to 3, characterized in that the polyvinyl butyral in Amounts of 5-15%, preferably 7-13% is contained in the transfer printing inks. 609819/1213 - l5 - Case 150-3674 25478R? 5. Preparations according to Claims 1 to 4, characterized in that the ratio between binder and transfer dye between 0.5: 1 and 10: 1, preferably between 1: 1 and 4: 1. 6. Preparations according to claims 2 to 5, characterized characterized in that the finely divided silica and cation-active or ampholytic Compounds up to 2%, based on the total recipe, are included in the total recipe and that the mixing ratio of the two substances is between 1: 9 and 9: 1, preferably 1: 3 and 3: 1. 7. Use of the preparations according to claims 1 to 6 for the production of transfer carriers with The help of gravure printing, flexographic printing or screen printing. 8. The carrier materials printed with the transfer printing inks according to claims 1 to 6. 9. Carrier materials according to claim 8, characterized in that the binder in unpigmented Form in the primer for the intermediate carrier and in the top coat for the shooter of the pressure is present on the intermediate carrier. 10. A method for dyeing textiles, characterized in that one means of the carrier materials according to claims 8 and 9 textiles printed by the transfer printing process. 609819/1213 - l6 - Case 150-3674 11. The textile materials dyed according to claim 10 . SANDOZ-PATENT-GMBH 609819/1213