CN106009901A - LED UV curing glass ink - Google Patents

Abstract

The invention provides LED UV curing glass ink and mainly solves the technical problems that thermo-curing ink is universally in the existing glass ink industry, the energy consumption is high, the efficiency is low and the like. The main point of the technical scheme is that the glass ink is prepared from the raw materials, by weight, of 30%-60% of resin, 3%-20% of UV monomer, 1%-10% of photoinitiator, 0.1%-5% of auxiliary, 0.1%-10% of pigment and 5%-30% of filler, and the resin comprises organic silicone modified epoxy acrylic resin, polyester acrylic resin, acrylic modified alkyd resin and acrylic modified silicone resin; the UV monomer comprises IBXA, acryloyl morpholine, spiro orthocarbonate, DPHA, (EO)n-TMPTA, tetrahydrofuran acrylate, lauryl acrylate and 9,9'-bis[4-(2'-hydroxy-3'-methacryloyloxypropoxy)phenyl]fluorene. The glass ink is manufactured with an LED UV curing method, has the advantages that energy is saved and the environmental protection efficiency is high and is mainly applied to the glass ink industry.

Description

LED UV curing glass printing ink

Technical field

The present invention relates to a kind of glass ink, particularly a kind of LED UV curing glass printing ink.

Background technology

UV is the abbreviation of ultraviolet, and in chemical industry field of polymer technology, UV is also by the abbreviation as radiation curing, and UV is namely UV ultraviolet light polymerization, utilize in UV ultraviolet light, shortwave (300-800 nanometer) under uv radiation, the light in liquid UV material Initiator irriate becomes free radical or cation, thus causes the macromolecular material (resin) containing active function groups to aggregate into not The process of molten/insoluble solid paint film, be a kind of sixties in 20th century rise, environmental protection, the new technique of low VOC emission, 20 80 years centuries were developed rapidly in China later.21 century UV solidification mostly uses novel UV LED to solidify, and has UV LED Point source, line source, area source.Mercury lamp, Halogen light is slowly eliminated.

The resin system that UV curing technology is used relates to a kind of basic oligomer, substantially it is a kind of low-molecular-weight The prepolymer of (about 2500), conventional has urethane acrylate (urethane acrylate), epoxy acrylate, polyester Acrylate or polyether acrylate, those oligomer without acrylate of vinyl ethers etc, the most just gradually adopted.Low The viscosity of polymers is higher, for ease of construction and raising crosslinking curing speed, needs to add monomer and adjusts as reactive diluent The rheological characteristic of resin.The structure of the reactive diluent performance such as mobility to final film, slipping, wettability, swellability, receive Animal migration within contracting, adhesive force and film has a major impact.Reactive diluent can be single functionality, it is possible to To be polyfunctionality, the latter is preferable, because it can make degree of cross linking during solidification improve.Performance requirement to reactive diluent There are dilution capacity, dissolubility, abnormal smells from the patient, the ability of reduction dielectric viscosity, volatility, degree of functionality, surface tension, contraction during polymerization Property, the vitrification point (Tg) of homopolymer, power of influence and the toxicity to whole curing rate.The monomer used should be to skin Zest also measures its value monomer less than 3 grades through Draize.Typical monomers as reactive diluent is tripropylene glycol two Acrylate (TPGDA) kind.

In terms of the elicitation technique of UV system, research is the use of cation light initiator.Triaryl sulfonium salts is this kind of The exemplary of light trigger.In this cationic systems, activation process is similar to radical polymerization process, it may be assumed that light absorbs, Sensibilization, causes, transmission and last chain termination.One advantage of cationic system is that reaction will not be suppressed by oxygen, And traditional free-radical initiator can be by the inhibitory action of oxygen.But, cationic initiator is but all to the impurity of nucleophilicity As water is very sensitive, this kind of impurity can neutralize cation makes chain increase in generation eventually.Cationic initiator is relatively expensive in price, The most also it is of little use.

But at present, glass ink industry generally utilizes thermo-cured ink, energy consumption shortcoming high, inefficient.

Summary of the invention

It is an object of the invention to provide a kind of energy-saving and environmental protection, the LED UV curing glass printing ink that efficiency is high.

The technical solution adopted for the present invention to solve the technical problems is: it uses and includes resin, UV monomer, light-initiated The LED UV curing glass printing ink that agent, auxiliary agent, pigment and filler are made, it is made up of the raw material of following weight proportioning: Resin 30-60, UV monomer 3-20, light trigger 1-10, auxiliary agent 0.1-5, pigment 0.1-10%, filler 5-30；Its technical process It is: first control temperature and be less than 60 DEG C, resin dispersion is stirred；Adding UV monomer, control temperature and be less than 60 DEG C, dispersion is all Even；Add light trigger, auxiliary agent and pigment, control temperature and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness little In 5 microns；Add filler, control temperature and be less than 60 DEG C, be uniformly dispersed, three-roller is ground to fineness less than 5 microns；Tree Fat includes organic-silicon-modified epoxy acrylic resin, polyester acrylate resin, acrylic acid modified alkyd resin, acrylic acid modified has Machine silicones, or the most any combination in any of more than two kinds；UV monomer includes isobornyl acrylate (IBXA), acryloyl Quinoline, KBM303, spiro orthocarbonate, phosphoric acrylic ester monomer (DPHA), (EO) n-TMPTA, acrylic acid tetrahydrofuran ester, third Olefin(e) acid lauryl and bisphenol fluorene double methyl methacrylate, or the most any combination in any of more than two kinds；Light trigger includes 907, ITX, DETX, TPO, 784,261, MBF, 819, camphorquinone (CQ) and 2-ethyl anthracene ester, or the most of more than two kinds Meaning combination；Auxiliary agent includes aqueous levelling agent BYK-333, levelling agent BYK-310, levelling agent BYK354, TEGO Foamex N, gathers Acrylate levelling agent BYK358N, defoamer KS66 and dispersant A nti-Terra-204, or the most of more than two kinds Meaning combination；Pigment includes white carbon black, iron oxide black, titanium dioxide, phthalocyanine blue and permanent bordeaux, or the most any combination in any of more than two kinds； Filler includes nano-calcium carbonate, nano aluminium oxide, nanometer stone cottonrose hibiscus powder, nano barium sulfate and nano-ceramic powder, or the most any 2 kinds Above combination in any.

Described LED UV curing glass printing ink, the preferred weight proportioning of the most each raw material respectively: resin 35-50%, UV Monomer 10-15%, light trigger 2-8%, auxiliary agent 0.3-1%, pigment 3-8%, filler 10-20%.

Described LED UV curing glass printing ink can be made by following processing step: first, by following weight proportion Extraction resin: silicon-modified epoxy acrylic resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

Spiro orthocarbonate 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

819 1-4,261 0.1-1,

CQ 0.1-1, TPO 05-2,

TEGO Foamex N 0.1-0.5, KBM303 0.1-1.5,

White carbon black 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Described LED UV curing glass printing ink can be made by following processing step: first, by following weight proportion Extraction resin: silicon-modified epoxy acrylic resin 10-20, acrylic acid modified alkyd resin 25-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 5-7, (EO) n-TMPTA 5-8,

819 1-4,784 0.2-1,

TPO 0.8-3, TEGO Foamex N 0.3-1,

White carbon black 3-6,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Described LED UV curing glass printing ink can be made by following processing step: first, by following weight proportion Extraction resin: polyester acrylate resin 6-10, acrylic acid modified alkyd resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, acryloyl morpholine 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, ITX 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK358N 0.1-1.5,

Phthalocyanine blue 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano aluminium oxide 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Described LED UV curing glass printing ink can be made by following processing step: first, by following weight proportion Extraction resin: silicon-modified epoxy acrylic resin 6-10, polyester acrylate resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, acryloyl morpholine 3-5,

(EO) 9-TMPTA 1-3, acrylic acid tetrahydrofuran ester 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

784 1-4, ITX 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK-333 0.1-1.5

Permanent bordeaux 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-calcium carbonate 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Described LED UV curing glass printing ink can be made by following processing step: first, by following weight proportion Extraction resin: silicon-modified epoxy acrylic resin 6-10, acrylic acid modified alkyd resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

KBM303 3-5, acryloyl morpholine 3-5,

(EO) 9-TMPTA 1-3, acrylic acid tetrahydrofuran ester 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

MBF 1-4, CQ 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK-333 0.1-1.5

Iron black 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-ceramic powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Described LED UV curing glass printing ink can be made by following processing step: first, by following weight proportion Extraction resin: silicon-modified epoxy acrylic resin 6-10, acrylic acid modified alkyd resin 10-20,

Polyester acrylate resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

KBM303 3-5, IBXA 3-5,

(EO) 3-TMPTA 1-3, bisphenol fluorene double methyl methacrylate 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, CQ 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, Anti-Terra-204 0.1-1.5

Titanium dioxide 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-ceramic powder 5-10,

Nano aluminium oxide 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

(EO) n-TMPTA includes: ethoxylated trimethylolpropane triacrylate (EO3-TMPTA), ethoxylation Trimethylolpropane trimethacrylate (EO9-TMPTA), activity dilution property monomer ethoxylated trimethylolpropane tris acrylic acid Ester (EO-TMPTA) etc.；KBM303 refers to that methacryloxypropyl trimethoxy silane, the present invention are especially refered in particular to: γ-(first Base acryloxy) propyl trimethoxy silicane；Light trigger 261 refers to that η 6-isopropylbenzene cyclopentadienyl ferrum (II) hexafluorophosphate is ferrum The most representational light trigger in aromatic hydrocarbons series, trade name Irgacure 261；2-ethyl anthracene ester refers to light trigger 2- EAQ；Anti204 refers to Anti-Terra-204 dispersant；TEGO Foamex N refers to that Germany wins wound Degussa enlightening height froth breaking Agent.

The invention has the beneficial effects as follows: it has high viscosity, hardness is high, heat-resist；The high spy of energy-saving and environmental protection efficiency Point.Especially splendid to the adhesive force of glass, curing rate is fast.It can be widely used for the fields such as glass evacuated plating and industry.

Detailed description of the invention

The present invention uses and includes the LED UV that resin, UV monomer, light trigger, auxiliary agent, pigment and filler are made Curing glass printing ink, it is made up of the raw material of following weight proportioning: resin 30-60, UV monomer 3-20, light trigger 1-10, Auxiliary agent 0.1-5, pigment 0.1-10%, filler 5-30；Its technical process is: first controls temperature and is less than 60 DEG C, resin dispersion is stirred Uniformly；Add UV monomer, control temperature and be less than 60 DEG C, be uniformly dispersed；Add light trigger, auxiliary agent and pigment, control temperature Degree, less than 60 DEG C, is uniformly dispersed, and is ground to fineness less than 5 microns on three-roller；Add filler, control temperature less than 60 DEG C, it is uniformly dispersed, three-roller is ground to fineness less than 5 microns；Resin includes organic-silicon-modified epoxy acrylic resin, gathers Ester acrylic resin, acrylic acid modified alkyd resin, acryl-modified silicone resin resin, or the most any of more than two kinds arbitrarily Combination；UV monomer includes isobornyl acrylate (IBXA), acryloyl morpholine, KBM303, spiro orthocarbonate, phosphorous propylene Acid ester monomer (DPHA), (EO) n-TMPTA, acrylic acid tetrahydrofuran ester, lauryl acrylate and bisphenol fluorene methacrylate Ester, or the most any combination in any of more than two kinds；Light trigger includes 907, ITX, DETX, TPO, 784,261, MBF, 819, Camphorquinone (CQ) and 2-ethyl anthracene ester, or the most any combination in any of more than two kinds；Auxiliary agent include aqueous levelling agent BYK-333, Levelling agent BYK-310, levelling agent BYK354, TEGO Foamex N, polyacrylate flow agent BYK358N, defoamer KS66 and Dispersant A nti-Terra-204, or the most any combination in any of more than two kinds；Pigment includes white carbon black, iron oxide black, titanium dioxide, phthalein Cyanines indigo plant and permanent bordeaux, or the most any combination in any of more than two kinds；Filler includes nano-calcium carbonate, nano aluminium oxide, nanometer stone Cottonrose hibiscus powder, nano barium sulfate and nano-ceramic powder, or the most any combination in any of more than two kinds.It has high viscosity, and hardness is high, Heat-resist；Energy-saving and environmental protection efficiency high.Especially splendid to the adhesive force of glass, curing rate is fast.It can be widely used for The fields such as glass evacuated plating and industry.

Embodiment 1, LED UV curing glass printing ink of the present invention, the weight proportion of the most each raw material respectively: tree Fat 35-50%, UV monomer 10-15%, light trigger 2-8%, auxiliary agent 0.3-1%, pigment 3-8%, filler 10-20%.

Embodiment 2, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Silicon-modified epoxy acrylic resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

Spiro orthocarbonate 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

819 1-4,261 0.1-1,

CQ 0.1-1, TPO 05-2,

TEGO Foamex N 0.1-0.5, KBM303 0.1-1.5,

White carbon black 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 3, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Silicon-modified epoxy acrylic resin 10-20, acrylic acid modified alkyd resin 25-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 5-7, (EO) n-TMPTA 5-8,

819 1-4,784 0.2-1,

TPO 0.8-3, TEGO Foamex N 0.3-1,

White carbon black 3-6,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 4, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Polyester acrylate resin 6-10, acrylic acid modified alkyd resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, acryloyl morpholine 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, ITX 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK358N 0.1-1.5,

Phthalocyanine blue 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano aluminium oxide 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 5, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Silicon-modified epoxy acrylic resin 6-10, polyester acrylate resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, acryloyl morpholine 3-5,

(EO) 9-TMPTA 1-3, acrylic acid tetrahydrofuran ester 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

784 1-4, ITX 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK-333 0.1-1.5

Permanent bordeaux 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-calcium carbonate 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 6, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Silicon-modified epoxy acrylic resin 6-10, acrylic acid modified alkyd resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

KBM303 3-5, acryloyl morpholine 3-5,

(EO) 9-TMPTA 1-3, acrylic acid tetrahydrofuran ester 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

MBF 1-4, CQ 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK-333 0.1-1.5

Iron black 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-ceramic powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 7, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Silicon-modified epoxy acrylic resin 6-10, acrylic acid modified alkyd resin 10-20,

Polyester acrylate resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

KBM303 3-5, IBXA 3-5,

(EO) 3-TMPTA 1-3, bisphenol fluorene double methyl methacrylate 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, CQ 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, Anti-Terra-204 0.1-1.5

Titanium dioxide 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-ceramic powder 5-10,

Nano aluminium oxide 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 8, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Acryl-modified silicone resin resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, DETX 0.1-1,

MBF 0.1-1, TPO 05-2,

TEGO Foamex N 0.1-0.5, defoamer KS66 0.1-1.5,

Phthalocyanine blue 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano-calcium carbonate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Embodiment 9, LED UV curing glass printing ink of the present invention can be made by following processing step: first, By following weight proportion extraction resin:

Polyester acrylate resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

Acryloyl morpholine 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, IBXA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

ITX 1-4, DETX 0.1-1,

MBF 0.1-1,784 05-2,

TEGO Foamex N 0.1-0.5, Anti-Terra-204 0.1-1.5,

Titanium dioxide 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano aluminium oxide 5-10,

Nano-calcium carbonate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

Protection scope of the present invention, is not only limited to the content of technical scheme shown in above-mentioned any embodiment, as long as adopt With by " employing weight proportion is: resin 30-60, UV monomer 3-20, light trigger 1-10, auxiliary agent 0.1-5, pigment 0.1- 10%, filler 5-30 " product of the LED UV curing glass printing ink that is made and the equal protection scope of the present invention of process it In.

Claims (10)

1. a LED UV curing glass printing ink, is characterized in that: it uses and includes resin, UV monomer, light trigger, auxiliary agent, color Element and the LED UV curing glass printing ink that is made of filler, it is made up of the raw material of following weight proportioning: resin 30-60, UV monomer 3-20, light trigger 1-10, auxiliary agent 0.1-5, pigment 0.1-10%, filler 5-30；Its technical process is: first control temperature Resin dispersion, less than 60 DEG C, is stirred by degree；Add UV monomer, control temperature and be less than 60 DEG C, be uniformly dispersed；Add light Initiator, auxiliary agent and pigment, control temperature and be less than 60 DEG C, be uniformly dispersed, and is ground to fineness less than 5 microns on three-roller；Again Add filler, control temperature and be less than 60 DEG C, be uniformly dispersed, three-roller is ground to fineness less than 5 microns；

Resin includes organic-silicon-modified epoxy acrylic resin, polyester acrylate resin, acrylic acid modified alkyd resin, acrylic acid Modified organic silicone resin, or the most any combination in any of more than two kinds；

UV monomer includes isobornyl acrylate (IBXA), acryloyl morpholine, spiro orthocarbonate, phosphoric acrylic ester monomer (DPHA), (EO) n-TMPTA, acrylic acid tetrahydrofuran ester, lauryl acrylate and bisphenol fluorene double methyl methacrylate, or wherein Any combination in any of more than two kinds；

Light trigger includes 907, ITX, DETX, TPO, 784, MBF, 819, camphorquinone (CQ) and 2-ethyl anthracene ester, or wherein appoints Anticipate combination in any of more than two kinds；

Auxiliary agent includes aqueous levelling agent BYK-333, levelling agent BYK-310, levelling agent BYK354, TEGO Foamex N, polypropylene Acid esters levelling agent BYK358N and defoamer KS66, or the most any combination in any of more than two kinds；

Pigment includes white carbon black, titanium dioxide, phthalocyanine blue and permanent bordeaux, or the most any combination in any of more than two kinds；

Filler includes nano-calcium carbonate, nano aluminium oxide, nanometer stone cottonrose hibiscus powder and nano barium sulfate, or the most of more than two kinds Combination in any.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: the weight proportion of the most each raw material is respectively It is: resin 35-50%, UV monomer 10-15%, light trigger 2-8%, auxiliary agent 0.3-1%, pigment 3-8%, filler 10-20%.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Silicon-modified epoxy acrylic resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

Spiro orthocarbonate 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

819 1-4,261 0.1-1,

CQ 0.1-1, TPO 05-2,

TEGO Foamex N 0.1-0.5, KBM303 0.1-1.5,

White carbon black 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Silicon-modified epoxy acrylic resin 10-20, acrylic acid modified alkyd resin 25-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 5-7, (EO) n-TMPTA 5-8,

819 1-4,784 0.2-1,

TPO 0.8-3, TEGO Foamex N 0.3-1,

White carbon black 3-6,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Polyester acrylate resin 6-10, acrylic acid modified alkyd resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, acryloyl morpholine 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, ITX 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK358N 0.1-1.5,

Phthalocyanine blue 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano aluminium oxide 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Silicon-modified epoxy acrylic resin 6-10, polyester acrylate resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, acryloyl morpholine 3-5,

(EO) 9-TMPTA 1-3, acrylic acid tetrahydrofuran ester 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

784 1-4, ITX 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK-333 0.1-1.5

Permanent bordeaux 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-calcium carbonate 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Silicon-modified epoxy acrylic resin 6-10, acrylic acid modified alkyd resin 10-20,

Acryl-modified silicone resin resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

KBM303 3-5, acryloyl morpholine 3-5,

(EO) 9-TMPTA 1-3, acrylic acid tetrahydrofuran ester 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

MBF 1-4, CQ 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, BYK-333 0.1-1.5

Iron black 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-ceramic powder 5-10,

Nano barium sulfate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Silicon-modified epoxy acrylic resin 6-10, acrylic acid modified alkyd resin 10-20,

Polyester acrylate resin 8-12,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

KBM303 3-5, IBXA 3-5,

(EO) 3-TMPTA 1-3, bisphenol fluorene double methyl methacrylate 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, CQ 0.1-1,

2-ethyl anthracene ester 0.1-1, DETX 05-2,

TEGO Foamex N 0.1-0.5, Anti-Terra-204 0.1-1.5

Titanium dioxide 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano-ceramic powder 5-10,

Nano aluminium oxide 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, by following weight proportion extraction resin:

Acryl-modified silicone resin resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

IBXA 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, DPHA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

907 1-4, DETX 0.1-1,

MBF 0.1-1, TPO 05-2,

TEGO Foamex N 0.1-0.5, defoamer KS66 0.1-1.5,

Phthalocyanine blue 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nanometer stone cottonrose hibiscus powder 5-10,

Nano-calcium carbonate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.

LED UV curing glass printing ink the most according to claim 1, is characterized in that: first, extracts by following weight proportion Resin:

Polyester acrylate resin 10-20, acrylic acid modified alkyd resin 20-30,

Disperseed to stir；Control temperature and be less than 60 DEG C, then by following weight proportion addition UV monomer:

Acryloyl morpholine 3-5, bisphenol fluorene double methyl methacrylate 3-5,

(EO) 3-TMPTA 1-3, IBXA 0.5-2,

It is uniformly dispersed；Control temperature and be less than 60 DEG C, then by following weight proportion addition light trigger, auxiliary agent and pigment:

ITX 1-4, DETX 0.1-1,

MBF 0.1-1,784 05-2,

TEGO Foamex N 0.1-0.5, Anti-Terra-204 0.1-1.5,

Titanium dioxide 2-5,

After being uniformly dispersed, three-roller is ground to fineness less than 5 microns；Filler is added again by following weight proportion

Nano aluminium oxide 5-10,

Nano-calcium carbonate 5-10,

Temperature will be controlled and be less than 60 DEG C, be uniformly dispersed, three-roller be ground to fineness less than 5 microns.