CN103214902B - Formula of abrasive surface printing ink and printing method - Google Patents
Formula of abrasive surface printing ink and printing method Download PDFInfo
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- CN103214902B CN103214902B CN201310092582.6A CN201310092582A CN103214902B CN 103214902 B CN103214902 B CN 103214902B CN 201310092582 A CN201310092582 A CN 201310092582A CN 103214902 B CN103214902 B CN 103214902B
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Abstract
The invention provides a formula of an abrasive surface printing ink. The ink is composed of the following substances by weight: 40-60% of polyvinyl alcohol with a molecular weight of 200000-300000, 20-40% of polypropylene glycol with a molecular weight of 400-1000, 3-12% of a solvent dye or pigment, 0.5-0.8% of alcohol, 1.5-2.0% of a surface active agent, and 2-8% of TPU polyurethane. The invention also provides an abrasive surface printing method. According to the method, the substances involved in the formula of the abrasive surface printing ink are sprayed to the abrasive surface of a nail or hard cutin finishing tool by a plotting instrument. Employment of the abrasive surface printing ink and the method provided in the invention can guarantee that inks of different colors are not mixed together for dip dyeing, the abrasive surface cannot form a coating film, and the ink can be well absorbed by the abrasive surface, thus maintaining high abrasion efficiency and obtaining a clear pattern design at the same time.
Description
[technical field]
The present invention relates to the printing of the abrasive surface of nail finishing tool, specifically, relate to a kind of abrasive surface printing ink formulations and printing process.
[background technology]
Existing nail or hard cutin finishing tool, if the printing process of the abrasive surface pattern of nail file is that the printed sheet of the printing with design printing is in advance attached on abrasive surface, then utilizing hot pressing mode is welded to the design of printing on abrasive surface, but in this process, printing with the oily ink of the design on printed sheet can be in the one side of printing set and hot melt, further on the abrasive surface of nail or hard cutin finishing tool, form film.The abrasive surface mill efficiency of this nail finishing tool with film can be had a greatly reduced quality, and is unfavorable for arranging, grinds nail or hard cutin.
The printing process of improved nail or hard cutin finishing tool abrasive surface pattern is: at set water-base ink on printed sheet for printing, then hot melt and by pattern printing thereon on the abrasive surface of nail or hard cutin finishing tool.But because the abrasive surface of nail or hard cutin finishing tool is to be made up of very meticulous jog, so the abrasive surface of the finishing tool that this kind of method for printing patterns obtains easily produces the problem that water-base ink has oozed along jog.Especially when the pattern being printed is while being made up of a lot of colors, the water-base ink of different colours mixes and more easily produces the problems referred to above.
Therefore be badly in need of a kind of can make on abrasive surface that pattern is printed on nail or hard cutin finishing tool time, versicolor ink mixes and forms film but well absorb on abrasive surface, and then maintain abrasive surface mill efficiency, the abrasive surface printing process that ink can not infect simultaneously.
[summary of the invention]
The object of the invention is for deficiency of the prior art, a kind of abrasive surface printing ink formulations is provided.
One object more of the present invention is that a kind of abrasive surface printing process is provided.
For achieving the above object, the technical scheme that the present invention takes is:
A kind of abrasive surface printing ink formulations, it is made up of the material of following weight percent: the polyvinyl alcohol 40-60% of molecular weight 200000-300000, the polypropylene glycol 20-40% of molecular weight 400-1000, solvent dye or pigment 3-12%, ethanol 0.5-0.8%, tensio-active agent 1.5-2.0%, TPU urethane 2-8%.
Preferably, it is made up of the material of following weight percent: the polyvinyl alcohol 60% of molecular weight 240000, the polypropylene glycol 30% of molecular weight 800, solvent dye or pigment 3%, ethanol 0.6%, tensio-active agent 1.8%, TPU urethane 4.6%.
Described solvent dye or pigment are selected from one or more in acidity yellow 23, acidity blueness 9, acid redness 17, acidity redness 52, acidity red 249 and reactivity redness 180, Carta Black, Direct Black19, DirectBlack51.
Described tensio-active agent is fatty alcohol-polyoxyethylene ether and/or undecyl sodium sulfonate.
For realizing above-mentioned second object, the technical scheme that the present invention takes is:
A kind of abrasive surface printing process, it is with plotting apparatus, as above arbitrary described abrasive surface printing ink formulations to be sprayed onto on the abrasive surface of nail or hard cutin finishing tool, comprises the following steps:
1) to being positioned at the hot line heating of spraying the plotting apparatus part under object, print dry ink simultaneously;
2) abrasive surface of spraying ink is continued to discharge below plotting apparatus;
3) abrasive surface of having discharged is continued to roll upward.
The invention has the advantages that:
Use abrasive surface printing of the present invention China ink and method, can ensure that the ink of different colours can not mix and contaminate, abrasive surface can not form film, and ink can well absorb abrasive surface, keeps high mill efficiency, and can obtain design clearly.
[embodiment]
Below embodiment provided by the invention is elaborated.
Herein, described polyvinyl alcohol English name is Polyvinylalcohol; Described polypropylene glycol English name is Polypropyleneglycol; Described TPU urethane is the abbreviation of Thermoplastic Urethane, Chinese is Polyurethane Thermoplastic Elastomer, and TPU is the macromolecular material being formed by '-diphenylmethane diisocyanate (MDI), tolylene diisocyanate (TDI) and macromolecular polyol, the common reactive polymeric of chainextender; Described ethanol is the ethanol of commercially available volume fraction 95%.
Embodiment 1 ink formulations one for abrasive surface printing of the present invention
The polyvinyl alcohol 40% of molecular weight 200000, the polypropylene glycol 40% of molecular weight 1000, acidity yellow 23 3%, acid blueness 9 3%, acid redness 17 3.7%, ethanol 0.8%, fatty alcohol-polyoxyethylene ether 1.5%, TPU urethane 8%.
Embodiment 2 ink formulations two for abrasive surface printing of the present invention
The polyvinyl alcohol 60% of molecular weight 300000, the polypropylene glycol 20% of molecular weight 400, acidity blueness 92%, acid redness 17 1%, acid yellow 23 2%, Direct Black19 4%, Direct Black51 3%, ethanol 0.5%, fatty alcohol-polyoxyethylene ether 2.0%, TPU urethane 5.5%.
Embodiment 3 ink formulations three for abrasive surface printing of the present invention
The polyvinyl alcohol 60% of molecular weight 240000, the polypropylene glycol 30% of molecular weight 800, acidity yellow 230.5%, acidity blueness 9 0.5%, acid redness 52 1%, reactivity redness 180 1%, ethanol 0.6%, undecyl sodium sulfonate 0.5%, fatty alcohol-polyoxyethylene ether 1.3%, TPU urethane 4.6%.
Embodiment 4 ink formulations four for abrasive surface printing of the present invention
The polyvinyl alcohol 50% of molecular weight 300000, the polypropylene glycol 40% of molecular weight 400, acidity yellow 230.5%, acidity blueness 9 1%, acidity redness 17 0.5%, acidity redness 52 0.5%, acidity redness 249 0.5%, reactivity redness 180 0.5%, Carta Black1%, Direct Black19 1%, ethanol 0.5%, undecyl sodium sulfonate 2%, TPU urethane 2%.
Embodiment 5 ink formulations five for abrasive surface printing of the present invention
The polyvinyl alcohol 50% of molecular weight 200000, the polypropylene glycol 30% of molecular weight 800, acidity yellow 232%, acidity blueness 9 2%, acid redness 17 2%, reactivity redness 180 2%, Direct Black51 2%, ethanol 0.5%, undecyl sodium sulfonate 0.5%, fatty alcohol-polyoxyethylene ether 1.0%, TPU urethane 8%.
Embodiment 6 ink formulations six for abrasive surface printing of the present invention
The polyvinyl alcohol 40% of molecular weight 240000, the polypropylene glycol 40% of molecular weight 1000, acidity yellow 231%, acidity blueness 9 1%, acidity redness 17 1%, acidity redness 52 1%, reactivity redness 180 2%, Direct Black19 2%, ethanol 0.6%, undecyl sodium sulfonate 2%, TPU urethane 9.4%.
Comparative example 1
The polypropylene glycol methyl ether 40% of molecular weight 200000, the polypropylene glycol 40% of molecular weight 1000, acidity yellow 23 3%, acid blueness 9 3%, acid redness 17 3.7%, ethanol 0.8%, fatty alcohol-polyoxyethylene ether 1.5%, TPU urethane 8%.
Comparative example 2
The polyvinyl alcohol 35% of molecular weight 200000, the polypropylene glycol 45% of molecular weight 1000, acidity yellow 23 3%, acid blueness 9 3%, acid redness 17 3.7%, ethanol 0.8%, fatty alcohol-polyoxyethylene ether 1.5%, TPU urethane 8%.
Comparative example 3
The polyvinyl alcohol 50% of molecular weight 300000, the polypropylene glycol 40% of molecular weight 400, acidity yellow 230.5%, acidity blueness 9 1%, acidity redness 17 0.5%, acidity redness 52 0.5%, acidity redness 249 0.5%, reactivity redness 180 0.5%, Carta Black1%, Direct Black19 1%, ethanol 0.6%, undecyl sodium sulfonate 1.4%, TPU urethane 2%.
Embodiment 7 prints abrasive surface
Use the China ink for printing of above-described embodiment and comparative example, be sprayed onto the abrasive surface of nail or hard cutin abrasive tool with plotting apparatus to print abrasive surface:
1) to being positioned at the hot line heating of spraying the plotting apparatus part under object, print dry ink simultaneously;
2) abrasive surface of spraying ink is continued to discharge below plotting apparatus;
3) abrasive surface of having discharged is continued to roll upward.
Embodiment 8 product performance comparisons
From using the printing of each embodiment abrasive surface spray the nail obtaining or firmly extract immediately 50 samples cutin abrasive tool with black, test its abrasive surface performance, statistics mill efficiency, pattern infect situation, and mill efficiency is divided high and low two grades, and pattern infects that situation includes or nothing.Statistics is as in table 1.
Table 1 statistics (individual)
Can be found out by statistics, use China ink for abrasive surface printing of the present invention, the method that the abrasive surface that is sprayed onto nail or hard cutin abrasive tool with plotting apparatus carrys out printed patterns can make abrasive surface keep high mill efficiency, and ink can not infect simultaneously.
The above is only the preferred embodiment of the present invention, for those skilled in the art, is not departing under the prerequisite of the inventive method the improvement of making and the supplementary protection scope of the present invention that is also considered as.
Claims (3)
1. an abrasive surface printing ink formulations, it is characterized in that, it is made up of the material of following weight percent: the polyvinyl alcohol 60% of molecular weight 240000, the polypropylene glycol 30% of molecular weight 800, solvent dye or pigment 3%, ethanol 0.6%, tensio-active agent 1.8%, TPU urethane 4.6%, described solvent dye or pigment are selected from one or more in acidity yellow 23, acidity blueness 9, acid redness 17, acidity redness 52, acidity red 249 and reactivity redness 180, Carta Black, Direct Black19, Direct Black51.
2. abrasive surface printing ink formulations according to claim 1, is characterized in that, described tensio-active agent is fatty alcohol-polyoxyethylene ether and/or undecyl sodium sulfonate.
3. an abrasive surface printing process, is characterized in that, it is with plotting apparatus, arbitrary claim 1-2 described abrasive surface printing ink formulations to be sprayed onto on the abrasive surface of nail or hard cutin finishing tool, comprises the following steps:
1) to being positioned at the hot line heating of spraying the plotting apparatus part under object, print dry ink simultaneously;
2) abrasive surface of spraying ink is continued to discharge below plotting apparatus;
3) abrasive surface of having discharged is continued to roll upward.
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CN201310092582.6A CN103214902B (en) | 2013-03-13 | 2013-03-13 | Formula of abrasive surface printing ink and printing method |
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CN103214902B true CN103214902B (en) | 2014-07-30 |
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US5700317A (en) * | 1996-04-25 | 1997-12-23 | Hewlett-Packard Company | Bleed control in ink-jet inks via aqueous phase separation |
US6908240B1 (en) * | 2003-12-16 | 2005-06-21 | International Imaging Materials, Inc | Thermal printing and cleaning assembly |
CN101275043B (en) * | 2007-03-28 | 2012-03-14 | 樊官保 | Environment-friendly water-soluble plate engraving ink |
CN101508860B (en) * | 2009-03-06 | 2011-08-17 | 华南农业大学 | Copper product circuit board etching printing ink, preparation and uses thereof |
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