TWI481761B - Cold-transfer printing thicker and producing method for color paste thereof - Google Patents

Description

Cold transfer printing paste and preparation method thereof

The invention relates to a printing paste used in the textile industry, in particular to a method for preparing a cold transfer printing paste and a color paste thereof. The cold transfer printing paste is used as a carrier for the dye, and the printing paste prepared into a reactive dye or an acid dye can be printed on the cold transfer printing medium, and the printing pattern is transferred from the medium to the cotton during the transfer printing process. , nylon and other textile fabrics.

The printing paste refers to a polymer compound which can be thickened in the printing paste. The cold transfer printing process firstly prints a printing paste composed of a paste and a dye on a paper base to form a transfer printing paper having a desired pattern or text, and then adheres the dyed side of the transfer printing paper to the printed fabric. The dye is detached or peeled off from the paper base by pressure, and the pattern or text on the transfer printing paper is transferred onto the fabric.

The paste is a liquid phase dispersion medium, a carrier for dyes and fillers, and must have a certain viscosity. The printing effect of the paste printing is closely related to the printed fabric, the printing method, and the printing paste composed of the paste and the dye. The main characteristics of the rheology, shearing force, viscosity, viscosity and drying speed of the printing paste depend on the properties of the original paste, that is, the paste, so the paste plays a vital role in the printing process. The paste in the transfer printing, as a thickener of the printing paste, should be given a certain viscosity and printing characteristics, and the paste can be easily removed from the fabric after the printing, transferring and fixing processes are completed. In addition, the paste also plays in the printing paste. The action of the dispersion medium and the diluent of each component such as a dye enables the components of the printing paste to be uniformly dispersed in the original paste. Traditionally used pastes include: seaweeds, including sodium alginate and alginic acid esters, starch and cellulose modified, modified guar gum, including oxidized guar gum, etherified guar gum, And an acrylic synthetic thickener.

In view of the characteristics of the cold transfer printing process, the paste is required to have a fast water solubility to facilitate rapid transfer of the dye from the paper to the fabric during transfer; in addition, since the cold transfer printing process prints the pattern on the paper, Requires good printing characteristics. In order to further improve the cold transfer printing process, improve the dye transfer rate and the quality of the printed products, the cold transfer printing pastes and the prepared color pastes have been patented, and some do not meet the requirements for use, so development is required. A new type of cold transfer printing paste with better printing and transfer characteristics.

In order to overcome the existing cold transfer printing paste and the prepared color paste, some have obtained the patent right, and some of the cold transfer printing paste does not meet the use requirements, so the present invention provides a cold transfer printing paste and its color The preparation method of the slurry can realize the rapid water solubility of the cold transfer printing paste, and is suitable for the coloring paste to be printed on the paper, and can be smoothly transferred onto the printed fabric.

The invention provides a method for preparing a cold transfer printing paste and a color paste.

In a first aspect, a cold transfer printing paste is provided, the formulation of which is heavy The percentages are: oxidized starch 5-8 wt%; printing oil 0.5-1.5 wt%; etherified starch 20-45 wt%; adjusted to 100 wt% with deionized water.

Wherein the oxidized starch is sodium hypochlorite oxidized starch, or hydrogen peroxide oxidized starch, or potassium permanganate oxidized starch, or periodic acid oxidized starch; the carboxyl group of the oxidized starch is determined by dry starch. 0.40%. The printing oil is a non-ionic printing oil containing emulsified vegetable oil as a main component, and a non-ionic printing oil of Kekai Company or a printing oil similar thereto is selected. The etherified starch is a low viscosity etherified starch, which is selected from low viscosity hydroxyalkyl etherified starch or low viscosity carboxymethyl etherified starch; the low viscosity is 10% by weight of etherified starch original paste (ie 10%) Etherified starch and 90% of the system after deionized water is fully dissolved. It is tested at 25 ° C with a Brookfield viscometer of 20 rpm and its viscosity is 20,000-50,000 mPa. s.

The preparation method of the cold transfer printing paste is:

Put 5-8 wt% of oxidized starch into a container, add 0.5-1.5 wt% of printing oil and 20-45 wt% of etherified starch, add deionized water to 100 wt%, and stir well. When the dissolution and system color are uniform, it becomes a cold transfer printing paste.

In a second aspect of the invention, there is provided a method of formulating a printing paste using the cold transfer printing paste described above.

The cold transfer printing paste formula is in the weight percentage: cold transfer printing paste 30-55 wt%; dye 0.2-15 wt%; anti-staining salt S 0.5-1 wt%; dispersing agent 0.1-8 wt%; Dyeing agent 0.05-0.5 wt%; water adjusted to 100 wt%.

Wherein the dye may be selected from a reactive dye or an acid dye; the dispersing agent is selected from the group consisting of a methylene naphthalenesulfonic acid dispersing agent, or a phenolic condensate sulfonate dispersing agent, or a fatty alcohol polyoxyethylene ether decane type dispersing agent; the leveling agent is selected from the group consisting of An alkyl ether type nonionic surfactant, or an aryl polyoxyethylene ether sulfate anionic surfactant, or a mixture of the two.

The preparation method of the cold transfer printing color paste is:

Add a small amount of cold water and 0.2-15 wt% dye in the container and adjust to a paste; then add 0.5-1 wt% of the anti-staining salt S, 0.1-8 wt% dispersant, 0.05-0.5 wt Mixing solution of % leveling agent, adding warm water of about 85 °C to dissolve the dye fully, adding to 30-55 wt% cold transfer printing paste after filtration, and adjusting to 100 wt% with water, stirring evenly. That is, a cold transfer printing paste is prepared.

The beneficial effects of the present invention are that the oxidized starch has low viscosity, high solid dispersion, and minimal gelation. Since the oxidized starch introduces a carbonyl group and a carboxyl group, the tendency of the amylose to sink is minimized, thereby maintaining the viscosity stability. And the cold transfer printing paste of the invention can form a strong, clear and continuous The continuous film is more uniform than the film of the acid-stained starch or the original starch paste, and is less likely to shrink and burst. The cold transfer printing paste of the invention has the advantages of fast water-dissolving speed, and in the cold transfer printing process, it is in contact with the fabric treated by the pre-treatment liquid, and can quickly carry the dye to the surface of the fabric. In addition, the film formed by drying the formulated color paste has good elasticity, can effectively avoid the crack of the printed pattern, and is suitable for the printing method of the garden net, the gravure and the flexo, and can avoid the mesh or the mesh. Blocking.

The invention is further illustrated by the following non-limiting examples, which are not to be construed as limiting.

Example 1: Cold transfer printing paste suitable for vinyl hydrazine type reactive dyes.

The weight percentage of each component of the cold transfer printing paste suitable for the vinyl hydrazine type reactive dye is: sodium hypochlorite oxidized starch accounts for 5 wt%; Kekai PRINTOL S printing oil accounts for 1.5 wt%; low viscosity hydroxyalkyl etherified starch accounts for 45% Wt%; adjusted to 100 wt% with deionized water.

The above synthetic method of cold transfer printing paste:

The above 5 wt wt% sodium hypochlorite oxidized starch was placed in a container, and then 1.5 wt% of Kekai's printing oil and 45 wt% of low-viscosity hydroxyalkyletherified starch were added, and deionized water was added to adjust to 100 wt%. Stirring, when completely dissolved and the color of the system is uniform, it becomes a cold transfer printing paste suitable for vinyl fluorene type reactive dyes. material.

A method of preparing a printing paste by applying the above-described cold transfer printing paste suitable for a vinyl hydrazine type reactive dye.

The cold transfer printing paste formula is based on the weight percentage: the above cold transfer printing paste accounts for 55 wt%; the vinyl hydrazine type reactive dye accounts for 15 wt%; the anti-staining salt S accounts for 1 wt%; the dispersing agent accounts for 7.5 wt%; The agent accounts for 0.5 wt%; the water is adjusted to 100 wt%.

The amount of reactive dyes should be adjusted according to the color of the flower design. The currently used ethylene-based reactive dyes account for 15 wt%, the anti-staining salt S is 1 wt%, and the dispersant is one-half of the reactive dyes, which is 7.5. Wt%, dispersing agent selected methylene naphthalene sulfonic acid dispersing agent, leveling agent selected aryl polyoxyethylene ether sulfate anionic surfactant, 0.5 wt%.

The preparation method of the above cold transfer printing color paste is as follows:

Add a small amount of cold water and 15 wt% of ethylene-type reactive dye to make a paste, then add dissolved 1 wt% anti-staining salt S, 7.5 wt% of methylene naphthalenesulfonic acid dispersant, 0.5 wt% of aryl a mixture of polyoxyethylene ether sulfate anionic surfactant, and then adding warm water at about 85 ° C to fully dissolve the dye, after filtration, added to 55 wt% cold transfer printing paste, and adjusted to 100 wt% with water Stir well, that is, a color transfer paste for cold transfer printing of a vinyl hydrazine type reactive dye.

Example 2: Cold transfer printing paste suitable for symmetrical triazine-type reactive dyes.

The weight percentage of each component of the cold transfer printing paste suitable for the symmetrical triazine-type reactive dye: 6 wt% of hydrogen peroxide starch; 1.2% by weight of the Cohen PRINTOL SC printing oil; low viscosity carboxymethyl etherification Starch accounted for 40% by weight; adjusted to 100% by weight with deionized water.

The above synthetic method of cold transfer printing paste:

The above 6 wt% starch oxyhydroxide was used, and 1.2 wt% of the printing oil produced by Kekai Company and 40 wt% of the low viscosity carboxymethyl etherified starch were added, and the deionized water was adjusted to 100 wt%, and then fully stirred. When it is completely dissolved and the color of the system is uniform, it becomes a cold transfer printing paste suitable for symmetrical triazine-type reactive dyes.

A method for preparing a printing paste by applying the above-described cold transfer printing paste suitable for a symmetrical triazine-type reactive dye. The cold transfer printing paste formula is based on the weight percentage: the above cold transfer printing paste accounts for 30 wt%; the symmetrical triazine type reactive dye accounts for 5 wt%; the anti-staining salt S accounts for 0.5 wt%; the dispersing agent accounts for 2.5 wt%; The leveling agent accounts for 0.3 wt%; the water is adjusted to 100 wt%.

The amount of reactive dyes should be adjusted according to the color of the pattern design. The symmetrical triazine type reactive dye is 5 wt%, the anti-staining salt S is 0.5 wt%, the dispersant is used in an amount of one-half of the reactive dye, and is 2.5 wt%, and the dispersant is dispersed by the phenol condensate sulfonate. The leveling agent is 0.3 wt%, and a mixture prepared by using an alkyl ether type nonionic surfactant and an aryl polyoxyethylene ether sulfate anionic surfactant in a weight ratio of 2:1 is used.

The preparation method of the above cold transfer printing color paste is as follows:

Add a small amount of cold water and 5 wt% of symmetrical triazine-type reactive dye to make a paste, then add 0.5 wt% of the anti-staining salt S, 2.5 wt% of the phenol aldehyde sulfonate dispersant, 0.3 wt% a mixture of an alkyl ether type nonionic surfactant and an aryl polyoxyethylene ether sulfate anionic surfactant in a weight ratio of 2:1, and then adding a warm water of about 85 ° C to fully dissolve the dye, after filtration, added to In a 30 wt% cold transfer printing paste, the water was adjusted to 100 wt% and stirred uniformly to prepare a cold transfer printing paste for a symmetrical triazine-type reactive dye.

Example 3: Cold transfer printing paste suitable for acid dyes.

The weight percentage of each component of the cold transfer printing paste suitable for acid dyes: potassium permanganate oxidized starch accounts for 8 wt%; Zhonggong Printing and Dyeing Chemical Co., Ltd. ZG-338 printing oil accounts for 0.5 wt%; low viscosity carboxymethyl ether Starch accounted for 20 wt%; adjusted to 100 wt% with deionized water.

The above synthetic method for cold transfer printing paste suitable for acid dyes:

Take the above 8 wt% potassium permanganate oxidized starch into the container, then add 0.5 Zwt-Zhonghua Printing and Dyeing Chemical Co., Ltd. ZG-338 printing oil and 20 wt% low viscosity carboxymethyl etherified starch, add deionized water to 100 wt% and stir well, until completely dissolved and the system color is uniform, ie It becomes a cold transfer printing paste suitable for vinyl hydrazine type reactive dyes.

The above method for preparing a printing paste suitable for an acid dye is applied. The cold transfer printing paste formula is based on the weight percentage: the above cold transfer printing paste accounts for 45 wt%; the acid dye accounts for 10 wt%; the anti-staining salt S accounts for 0.8 wt%; the dispersing agent accounts for 5 wt%; the leveling agent accounts for 0.2%. Wt%; water adjusted to 100 wt%.

The amount of acid dye is adjusted according to the color of the flower design. The acid dye used is 10 wt%, the anti-staining salt S is 0.5 wt%, and the dispersant is one-half of the acid dye, which is 5 wt%. A fatty alcohol polyoxyethylene ether decane type dispersant, leveling agent accounts for 0.2 wt%, and an alkyl ether type nonionic surfactant is used.

The preparation method of the above cold transfer printing color paste is as follows:

Add a small amount of cold water and 10 wt% acid dye to make a paste, then add dissolved 0.8 wt% anti-staining salt S, 5 wt% fatty alcohol polyoxyethylene ether decane type dispersing agent, 0.2 wt% alkyl ether type a mixture of nonionic surfactants, adding warm water at about 85 ° C to fully dissolve the dye, after filtration, added to 45 wt% In the cold transfer printing paste, the mixture was uniformly adjusted with water to 100 wt%, and the paste for cold transfer printing of the vinyl hydrazine type reactive dye was obtained.

The carboxyl group quality fraction of the selected oxidized starch in the above Example 1, Example 2 and Example 3 0.40%; low viscosity etherified starch selected for low viscosity using 10 wt% etherified starch paste, tested at 25 ° C with a Brookfield viscometer at 20 rpm, viscosity 20,000- 50,000 mPa. s.

The technical contents of the present invention have been disclosed in the above preferred embodiments, and are not intended to limit the present invention. Any modifications and refinements made by those skilled in the art without departing from the spirit of the present invention are encompassed by the present invention. The scope of protection of the present invention is therefore defined by the scope of the appended claims.

Claims (8)

A cold transfer printing paste consisting of oxidized starch, printing oil, etherified starch and deionized water, wherein in the cold transfer printing paste, the cold transfer is based on the total weight of the cold transfer printing paste The weight percentage of each component of the printing paste is: 5-8 wt% of oxidized starch; 0.5-1.5 wt% of printing oil; 20-45 wt% of etherified starch; adjusted to 100 wt% with deionized water; 5-8 wt% of oxidized starch is placed in a container, 0.5-1.5 wt% of printing oil and 20-45 wt% of etherified starch are added, and deionized water is added to 100 wt%, and then fully stirred, to be completely When the dissolution is uniform with the overall color, it becomes a cold transfer printing paste. The cold transfer printing paste according to claim 1, wherein the carboxylated mass fraction of the oxidized starch 0.40%, which is selected from one of sodium hypochlorite oxidized starch, hydrogen peroxide oxidized starch, potassium permanganate oxidized starch, and periodic acid oxidized starch. The cold transfer printing paste according to claim 1, wherein the etherified starch is a low viscosity etherified starch selected from the group consisting of low viscosity hydroxyalkyl etherified starch or low viscosity carboxymethyl etherified starch; It is a 10 wt% etherified starch paste, tested at 25 ° C with a Brookfield viscometer at 20 rpm, and its viscosity is 20,000-50,000 mPa. s. The cold transfer printing paste according to claim 1, wherein the printing oil is a nonionic printing oil containing emulsified vegetable oil as a main component. A color paste preparation method using the cold transfer printing paste according to claim 1, wherein in the color paste prepared by the cold transfer printing paste, the color paste groups are based on the total weight of the color paste. The weight percentage is: 30-55wt% cold transfer printing paste slurry; 0.2-15wt% dye; 0.5-1wt% anti-staining salt S; 0.1-8wt% dispersing agent; 0.05-0.5wt% uniform Dyeing agent; adjusted to 100% by weight with water; wherein, adding a small amount of water and 0.2-15% by weight of the dye in the container, and adjusting into a paste; then adding the dissolved 0.5-1% by weight of the anti-staining salt S, 0.1-8wt % dispersant, 0.05-0.5wt% leveling agent mixture, add about 85 °C warm water to fully dissolve the dye, filter and add to 30-55wt% cold transfer printing paste, and then adjust to water After 100 wt%, the mixture was uniformly stirred to prepare a cold transfer printing paste. The method for preparing a color paste of a cold transfer printing paste according to claim 5, wherein the dye is selected from a reactive dye or an acid dye. The method for preparing a color paste of a cold transfer printing paste according to claim 5, wherein the dispersing agent is selected from the group consisting of a methylene naphthalenesulfonic acid dispersing agent, a phenol aldehyde condensate sulfonate dispersing agent, and a fatty alcohol polyoxyethylene. One of the ether decane type dispersing agents. The color paste preparation method of the cold transfer printing paste according to claim 5, wherein the leveling agent is selected from the group consisting of an alkyl ether type nonionic surfactant, an aryl polyoxyethylene ether sulfate anionic surfactant, and The group formed by the combination.