CN107964321A - A kind of photo-thermal dual curable type blast coating and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of photo-thermal dual curable type blast coating and preparation method thereof, which is made of following 5 30% light-cured resin of weight percentage, 20 50% thermosetting resins, 16 20% photo polymerization monomers, 2 5% light curing agents, 10 15% latency thermal curing agents, 0 10% diluent, 0 20% function additive.The preparation method of the coating includes：Light-cured resin, photo polymerization monomer, thermosetting resin are uniformly mixed, form mixture；By levelling agent, defoamer, polymerization inhibitor are sequentially added in mixture, then light curing agent, latency thermal curing agents, coupling agent are added, and photo-thermal dual curable type blast coating is made.Coating of the present invention can overcome the disadvantages that the deficiency of photocuring, assign the excellent physics of coating, mechanical performance, can particularly improve the adhesive force and wearability of coating and basement membrane.

Description

A kind of photo-thermal dual curable type blast coating and preparation method thereof

Technical field

The present invention relates to brightness enhancement film technical field of coatings, and in particular to a kind of photo-thermal dual curable type blast coating and its Preparation method.

Background technology

Brightness enhancement film (BEF, Brightness Enhancement Film) is most important light in the module of display backlight source One of film is learned, light that luminaire sent can be converged to increase display brightness.Its action principle is using on surface Special prismatic structure, is narrowed through the visual angle of the light of scatter plate to increase the brightness for the light that display user is seen, is saved aobvious Show device battery apparatus energy, and improve the utilization rate for sending luminous energy.

Blast membrane material generally use UV curing process produces currently on the market, and this technique is exactly a kind of two-way in fact The liquid glue of plastic material last layer or multilayer after stretching, the structure figure to form brightness enhancement film is rolled by patterned roll.But Be photocuring depth it is limited, ultraviolet light less than dash area can not cure, be restricted the shape of curing object, Coating and basement membrane attachment are unstable, and blast coating abrasion performance is poor, seriously reduces the product qualified rate of production.

The Chinese invention patent application that application publication number is CN103555153A (Application No. 201310454630.1) is public A kind of brightness enhancement film coating composition has been opened, has included each component of following parts by weight：5~80 parts of light-cured resin, photopolymerization list 5~100 parts of body, 1~30 part of photoinitiator, 0~20 part of diluent, 0~10 part of auxiliary agent.What the brightness enhancement film coating composition was formed Coating is easy to template separation, is conducive to prismatic structure special made by improving and is replicated on the base material with blast coating Precision；Coating good film-forming property, resistance to ag(e)ing are good；But the coating that the brightness enhancement film coating composition is formed still suffers from coating and basement membrane Adhere to unstable, the defects of blast coating abrasion performance is poor.

The content of the invention

The present invention provides a kind of photo-thermal dual curable type blast coating being readily produced and preparation method thereof, the coating It can overcome the disadvantages that the deficiency of photocuring, assigned the excellent physics of coating, mechanical performance, can particularly improve the attached of coating and basement membrane Put forth effort and wearability.

A kind of photo-thermal dual curable type blast coating, is made of the component of following weight percentage：

It is compound by light-cured resin, thermosetting resin, photo polymerization monomer in the present invention, coordinate light curing agent, latency Thermal curing agents, each component can interact, mutually collaboration, assign the excellent physics of coating, mechanical performance, particularly consolidate in light On the basis of changing resin, photo polymerization monomer, light curing agent, thermosetting resin and latency thermal curing agents are added, can be notable The adhesive force of coating and basement membrane is improved, can also improve the wearability of blast membrane coat.Also, the brightness enhancement film coating preparation goes out to carry High-light-energy utilization rate, the brightness enhancement film for strengthening light-source brightness.

Coupling agent, levelling agent, defoamer, polymerization inhibitor etc. can be selected in the function additive.

The preferred technical solution of the present invention is used as below：

The photo-thermal dual curable type blast coating, is made of the component of following weight percentage：

In the present invention, using coupling agent, levelling agent, defoamer and polymerization inhibitor as function additive, the function of said components Auxiliary agent is combined with each other with light-cured resin, thermosetting resin, photo polymerization monomer, light curing agent, latency thermal curing agents, can The adhesive force of coating and basement membrane is further improved, can also improve the wearability of blast membrane coat, it is more excellent coating can be assigned Good physics, mechanical performance.

Still more preferably, the photo-thermal dual curable type blast coating, by the component of following weight percentage Form：

The light-cured resin is aliphatic urethane acrylate (U.S. cyanogen spy EBECRYL8200), aliphatic poly More than one or both of urethane acrylate (EBECRYL8405), acroleic acid esterification acrylate (741) (including two Kind).

The preferred cycloaliphatic epoxy resin of the thermosetting resin (such as 711,732), glycidyl ester type epoxy resin are (such as 731st, 672, TDE-85), diglycidyl ether type epoxy resin (such as 680, F-76), glycidyl amine type epoxy resin (such as AG- One or both of 80) more than (including two kinds).

The photo polymerization monomer is propylene glycol diacrylate (such as TPGDA), and monofunctional epoxy acrylate is (such as EBECRYL113), polyether acrylate (EBECRYL140, EBECRYL892), bisphenol a diacrylate (such as SR601, EM2261, BP042, EBECRYL150), adjacent phenyl benzene ethoxyethyl acrylate (such as EM2105, PP-011, AM611), third Olefin(e) acid isobornyl thiocyanoacetate (such as ODA), ethoxylated neopentylglycol diacrylate (such as EBECRYL 145), trimethylolpropane tris More than one or both of acrylate (such as TMPTA) (including two kinds).

The light curing agent is the double methyl ethers (such as 651) of benzil, Dialkoxy acetophenones (such as 1173), 2- hydroxyls -2- Methyl isophthalic acid-phenyl -1- acetone (such as Darocur1173), phosphorous oxide is (such as phenyl double (2,4,6- trimethylbenzoyls) Irgacure819), alpha-hydroxyalkyl benzophenone (such as 184), α-aminoalkylphenones (such as 907,369), styrax methyl phenyl ethers anisole is (such as Irgacure651), acyl group phosphorous oxides (such as TP0,819).

The latency thermal curing agents are made of following one or more kinds of mixture of substances：Succinic acid hydrazide ii, oneself More than one or both of dihydrazi, isophthalic dihydrazide, salicylic acid hydrazides (including two kinds).

The diluent is alcohol ethers solvent, in esters solvent, ketones solvent, aromatic solvent, oil series solvent One or both of more than (including two kinds).

The coupling agent is made of following one or more kinds of mixture of substances：Aminopropyl triethoxysilane is (such as KH550), glycidyl ester oxy propyl trimethoxysilane (such as KH560), methacryloxypropyl trimethoxy silane (such as KH570), vinyltriethoxysilane (such as A151), vinyltriethoxysilane (such as A171), mercapto propyl group trimethoxy Base silane (such as KH580, KH590), ethylenediaminepropyltriethoxysilane (such as KH792), ethylenediamine hydroxypropyl methyl dimethoxy Silane (such as KBM602).

The levelling agent is made of following one or more kinds of mixture of substances：Dimethyl silicone polymer, polymethyl-benzene Radical siloxane.

The polymerization inhibitor is made of following one or more kinds of mixture of substances：Hydroquinone, 1,4-benzoquinone, para hydroxybenzene Methyl ether, 2- tert-butyl hydroquinone.

The defoamer is made of following one or more kinds of mixture of substances：Aliphatic acid and its metallic soap and esters, Propane diols, polyoxypropylene ethylene oxide glycerin ether, dimethicone, 2-Ethylhexyl Alcohol.

A kind of preparation method of photo-thermal dual curable type blast coating, comprises the following steps：

1) light-cured resin, photo polymerization monomer, thermosetting resin are uniformly mixed, form mixture；

2) levelling agent, defoamer, polymerization inhibitor are sequentially added in the mixture in step 1), then by light curing agent, latent Property thermal curing agents, coupling agent add, photo-thermal dual curable type blast coating is made.

A kind of photo-thermal dual curable type brightness enhancement film, including blast film base material and use photo-thermal dual curable type of the present invention increase Bright coating is coated on the broached-tooth design coating formed on blast film base material.

Blast film base material is specially ethylene glycol terephthalate material.

The photo-thermal dual curable type brightness enhancement film further includes two be arranged on outside blast film base material and broached-tooth design coating Layer protective film.

A kind of preparation method of photo-thermal dual curable type brightness enhancement film, comprises the following steps：

Using the process units of photo-thermal dual curable type brightness enhancement film, including the cleaning being connected for roll unit, with for roll unit Unit, the coater unit being connected with cleaning unit, the embossing unit being connected with coater unit, the protective film being connected with embossing unit Recombiner unit, the rolling unit being connected with protective film recombiner unit；

Blast film base material is placed on on roll unit, coater unit is by photo-thermal dual curable type blast coating of the present invention Blast film base material is coated on, by embossing unit, broached-tooth design coating is formed, afterwards, passes through protective film recombiner unit compound two Layer protective film, finally winding are completed, and obtain photo-thermal dual curable type brightness enhancement film.

Sawtooth on the broached-tooth design coating is isosceles triangle.

The embossing unit include sequentially connected patterned roll, UV lamp group, baking oven, the patterned roll include roll body with And it is arranged on the sawtooth on the roll body.

The protective film recombiner unit includes protective film for volume and protective film for volume.

Compared with prior art, the invention has the advantages that：

1st, the adhesive force of coating and basement membrane is improved；

2nd, the wearability of blast membrane coat is improved；

3rd, the product qualified rate of production is improved.

Brief description of the drawings

Fig. 1 is the structure diagram of photo-thermal dual curable type brightness enhancement film in the present invention；

Fig. 2 is the structure diagram of the process units of photo-thermal dual curable type brightness enhancement film in the present invention.

Embodiment

Embodiment 1

Component is weighed according to table 1 below：

Table 1

Wherein light-cured resin, photo polymerization monomer, thermosetting resin it will be put into dispersing mixer and be uniformly mixed, be formed mixed Compound；

By levelling agent, defoamer, polymerization inhibitor are sequentially added in said mixture；

Light curing agent, latency thermal curing agents, coupling agent are added in said mixture, photo-thermal dual curable type is made and increases Bright coating；

Using the process units of photo-thermal dual curable type brightness enhancement film, photo-thermal dual curable type blast coating is coated on increasing On bright film base material 100, the drying and forming-film after ultraviolet light and heat cure, film, that is, broached-tooth design coating of formation.

Protective film is covered on broached-tooth design coating 200, that is, photo-thermal dual curable type brightness enhancement film of the present invention is made.

Fig. 1 is photo-thermal dual curable type brightness enhancement film proposed by the present invention, including blast film base material 100 and using the present invention Photo-thermal dual curable type blast coating is coated on the broached-tooth design coating 200 on blast film base material 100.Blast film base material 100 Specially ethylene glycol terephthalate (PET) material.

As shown in Fig. 2, the process units of photo-thermal dual curable type brightness enhancement film, including supply roll unit 1, with connecting for roll unit 1 It is the cleaning unit 2 that connects, the coater unit 3 being connected with cleaning unit 2, the embossing unit 4 being connected with coater unit 3, single with embossing The protective film recombiner unit 5 of the connection of member 4, the rolling unit 6 being connected with protective film recombiner unit 5, embossing unit 4 include connecting successively Patterned roll 4.1, UV lamp group 4.2 and the baking oven 4.3 connect, protective film recombiner unit 5 include protective film and are supplied for volume 5.1 and protective film Volume 5.2.

Brightness enhancement film made from this preparation embodiment has following physico-chemical parameter, as shown in table 2：

Table 2

Embodiment 2

Component is weighed according to following table, as shown in table 3：

Table 3

Wherein light-cured resin, photo polymerization monomer, thermosetting resin it will be put into dispersing mixer and be uniformly mixed, be formed mixed Compound；

By levelling agent, defoamer, polymerization inhibitor are sequentially added in said mixture；

By light curing agent, latency thermal curing agents.Coupling agent is added in said mixture, and photo-thermal dual curable type is made and increases Bright coating；

Using the process units of photo-thermal dual curable type brightness enhancement film, photo-thermal dual curable type blast coating is coated on increasing On bright film base material 100, the drying and forming-film after ultraviolet light and heat cure, film, that is, broached-tooth design coating of formation.

Protective film is covered on broached-tooth design coating 200, that is, photo-thermal dual curable type brightness enhancement film of the present invention is made.

Brightness enhancement film made from this preparation embodiment has following physico-chemical parameter, as shown in table 4：

Table 4

Embodiment 3

Component is weighed according to table 5 below：

Table 5

Wherein light-cured resin, photo polymerization monomer, thermosetting resin it will be put into dispersing mixer and be uniformly mixed, be formed mixed Compound；

By levelling agent, defoamer, polymerization inhibitor are sequentially added in said mixture；

By light curing agent, latency thermal curing agents.Coupling agent is added in said mixture, and photo-thermal dual curable type is made and increases Bright coating；

Using the process units of photo-thermal dual curable type brightness enhancement film, photo-thermal dual curable type blast coating is coated on increasing On bright film base material 100, the drying and forming-film after ultraviolet light and heat cure, film, that is, broached-tooth design coating of formation.

Protective film is covered on broached-tooth design coating 200, that is, photo-thermal dual curable type brightness enhancement film of the present invention is made.

Brightness enhancement film made from this preparation embodiment has following physico-chemical parameter, as shown in table 6：

Table 6

Comparative example 1

Component is weighed according to table 7 below, latency thermal curing agents, the same embodiment of preparation method are not used relative to embodiment 1 1：

Table 7

Brightness enhancement film made from this preparation embodiment has following physico-chemical parameter, as shown in table 8：

Table 8

Comparative example 2

Component is weighed according to table 9 below, latency thermal curing agents and light curing agent, preparation side are not used relative to embodiment 1 Method is the same as embodiment 1：

Table 9

Brightness enhancement film made from this preparation embodiment has following physico-chemical parameter, as shown in table 10：

Table 10

Embodiment 1~3 uses photo-thermal dual curable type blast coating of the present invention, and obtained brightness enhancement film, its performance is more It is excellent, particularly embodiment 1, its relative to embodiment 2 and 3, performance is more excellent, and particularly damage resistant, pencil hardness refers to Mark, shows more excellent, illustrates, the photo-thermal dual curable type brightness enhancement film adhesive force and wearability of embodiment 1 are more excellent.

Comparative example 1 does not add latency thermal curing agents, its performance is decreased obviously, particularly scratch-resistant relative to embodiment 1 The index of wound, pencil hardness and adhesion decreases drastically, and illustrates that adhesive force and wearability have dropped, it is seen then that latent Property thermal curing agents add, to adhesive force and wearability lifting have obvious effect.

Comparative example 2 does not add latency thermal curing agents and light curing agent, its performance is further bright relative to embodiment 1 Aobvious to decline, the index of particularly damage resistant, pencil hardness and adhesion further significantly declines, and illustrates adhesive force and wear-resisting Property further have dropped, it is seen then that latency thermal curing agents and light curing agent add, and can produce synergy, to attachment Power and wearability lifting have obvious effect.

Claims (9)

1. a kind of photo-thermal dual curable type blast coating, it is characterised in that be made of the component of following weight percentage：

2. photo-thermal dual curable type blast coating according to claim 1, it is characterised in that contained by following weight percent The component of amount is formed：

3. photo-thermal dual curable type blast coating according to claim 2, it is characterised in that contained by following weight percent The component of amount is formed：

4. the photo-thermal dual curable type blast coating according to claim 1,2 or 3, it is characterised in that the light is consolidated Change resin is aliphatic urethane acrylate, one kind in aliphatic urethane acrylate, acroleic acid esterification acrylate It is or two or more.

5. the photo-thermal dual curable type blast coating according to claim 1,2 or 3, it is characterised in that the thermosetting Type resin is cycloaliphatic epoxy resin, glycidyl ester type epoxy resin, diglycidyl ether type epoxy resin, glycidic amine type It is more than one or both of epoxy resin.

6. the photo-thermal dual curable type blast coating according to claim 1,2 or 3, it is characterised in that the light gathers Conjunction monomer is propylene glycol diacrylate, monofunctional epoxy acrylate, polyether acrylate, bisphenol a diacrylate, neighbour Phenyl benzene ethoxyethyl acrylate, isobornyl acrylate, ethoxylated neopentylglycol diacrylate, trihydroxy methyl third It is more than one or both of alkane triacrylate.

7. the photo-thermal dual curable type blast coating according to claim 1,2 or 3, it is characterised in that the light is consolidated Agent is that the double methyl ethers of benzil are Dialkoxy acetophenones, 2- hydroxy-2-methyl -1- phenyl -1- acetone, the double (2,4,6- of phenyl Trimethylbenzoyl) phosphorous oxide, alpha-hydroxyalkyl benzophenone, α-aminoalkylphenones, styrax methyl phenyl ethers anisole, in acyl group phosphorous oxides It is one or more kinds of.

8. the photo-thermal dual curable type blast coating according to claim 1,2 or 3, it is characterised in that described is latent Property thermal curing agents for succinic acid hydrazide ii, adipic dihydrazide, isophthalic dihydrazide, one kind in salicylic acid hydrazides or two More than kind.

9. according to the preparation method of claim 2~8 any one of them photo-thermal dual curable type blast coating, its feature exists In comprising the following steps：

1) light-cured resin, photo polymerization monomer, thermosetting resin are uniformly mixed, form mixture；

2) levelling agent, defoamer, polymerization inhibitor are sequentially added in the mixture in step 1), then light curing agent, latency is hot Curing agent, coupling agent add, and photo-thermal dual curable type blast coating is made.