CN106189921A - A kind of POE packaging adhesive film composite tackifier with high bond strength and application thereof - Google Patents

Abstract

The invention discloses a kind of POE packaging adhesive film composite tackifier with high bond strength and application thereof.The composite tackifier using the present invention can suppress titanate coupling agent to the migration of film surface during adhesive film is cured, and strengthen the combination between silane coupler and titanate coupling agent and glued membrane, by the compound viscosifying action between silane coupler and titanate coupling agent, improve glued membrane to glass and the adhesion strength of backboard.Wherein, each raw material preparing packaging adhesive film is included by mass fraction: POE resin 100 parts, composite tackifier 0.4～1.2 parts, cross-linking agent 0.8～2 parts, assistant crosslinking agent 0.4～1 part, ultraviolet absorber 0.05～0.2 part, antioxidant 0.03～0.1 part.

Description

A kind of POE packaging adhesive film composite tackifier with high bond strength and application thereof

Technical field

The present invention relates to a kind of have high-adhesion can polyolefin elastomer (POE) photovoltaic module packaging adhesive film and Technology of preparing, is specifically related to a kind of POE packaging adhesive film composite tackifier with high bond strength and application thereof.

Background technology

Solar electrical energy generation depends on solaode (abbreviation photovoltaic cell) and solar energy is converted into electric energy.Too Sun can include cell piece, glass cover-plate, back veneer material and packaging adhesive film by battery component.Wherein, packaging adhesive film plays and supports and solid Determine cell piece, keep sunlight high permeability, isolation to the harmful environmental factors of cell piece, ensure the electrical insulation capability of assembly with And ensure the effects such as heat-conductive characteristic.The encapsulation process of photovoltaic module is, with two-layer packaging adhesive film, cell piece is clipped in glass cover-plate And between backboard, photovoltaic module laminating machine carries out heating in vacuum lamination, by glued membrane and cell piece, glass cover-plate and backboard Bonds well, cell piece is sealed between glass cover-plate and backboard.Packaging adhesive film is to cell piece, glass cover-plate and backboard Adhesive property determines the sealing property of photovoltaic module, and then determines the service life of solaode.Industry glazing at present Photovoltaic assembly packaging adhesive film mainly uses material based on ethylene-vinyl acetate (EVA) resin.

Although with polar group on EVA resin strand, cell piece, glass cover-plate and backboard had certain bonding Property, but consider from the sealing property of photovoltaic module, the adhesion strength between EVA resin and cell piece, glass cover-plate and backboard The serviceability requirement of photovoltaic module cannot be met, need EVA resin is carried out tackified finish.The most industrial to EVA encapsulation The method of glued membrane thickening is directly to add viscosifier in it prepares formula, and conventional viscosifier are silane coupler, such as second Thiazolinyl trimethoxy silane.Its viscosifying mechanisms is to be laminated the vinyl of solidification process medium vinyl trimethoxy silane by handing over The graft reaction that connection agent causes is attached on EVA strand, and siloxanes is then by the silicone hydroxyl formed after hydrolysis and glass table The hydroxyl condensation reaction bonded of face hydroxyl is to glass surface, thus realizes the bonds well of glued membrane and glass.In addition in order to enter one Step improves the bond effect of EVA adhesive film, and reduce auxiliary agent cost, it is thus proposed that with the relatively low titanate coupling agent of price with Silane coupler is compounding to be viscosified EVA packaging adhesive film.Because titanate coupling agent is as silane coupler, can be with glass Glass surface hydroxyl generation hydroxyl condensation reacts, and it can also form difficulty soluble salt with silicon dioxide (composition of glass) and strengthen Adhesive property with glass；On the one hand this compounding viscosifier improve the adhesion strength of glued membrane and glass, also reduce simultaneously The auxiliary agent cost of glued membrane.

Polyolefin elastomer (POE) is the ethylene-octene copolymer produced by metallocene catalysis technology, has full And fat chain structure, its strand has numerous short-chain branch, without active polar group, degree of crystallinity is low, and this makes POE tree The light penetration of fat is suitable with EVA resin, and in specific insulation, water vapor rejection rate, ultraviolet aging resistance xanthochromia and use It is better than EVA resin in the performance indications such as life-span, thus is a kind of desired matrix material of photovoltaic component encapsulating glued membrane, in recent years More external companies have released one after another photovoltaic module POE packaging adhesive film product.But owing to lacking polarity on POE strand Group, is a kind of typical non-polar polymer, this make POE packaging adhesive film to the adhesive property of glass and backboard far away from EVA packaging adhesive film.Therefore, the adhesive property improving POE packaging adhesive film and glass and backboard is POE packaging adhesive film industrial applications Have to solve the technical problem that.

The thickening of POE packaging adhesive film uses the method identical with EVA packaging adhesive film thickening mostly at present, it may be assumed that join in preparation Side adds silane coupler as viscosifier.But for lacking the POE resin of polar group on strand, to POE Thickening requirement EVA the to be higher than packaging adhesive film of packaging adhesive film.As it turns out, will apply good in EVA packaging adhesive film Viscosifier formula when the thickening of POE packaging adhesive film, the adhesion strength of POE packaging adhesive film and glass and backboard is less than EVA Packaging adhesive film and glass and the adhesion strength of backboard, it is impossible to meet the use requirement of photovoltaic module.In order to improve POE packaging adhesive film Adhesion strength, it can be envisaged that silane coupler is compounded with titanate coupling agent, form composite tackifier, by two kinds of couplings The different viscosifying mechanisms of agent is worked in coordination with and is improved Efficient Adhesive Promotion.But find in Shi Jian, due to POE shortage polar group, and metatitanic acid Ester coupling agent has again higher polarity, and in the lamination solidification process of glued membrane, titanate coupling agent preferentially moves to film surface Moving, and form a large amount of bubble at the interface of glued membrane Yu glass, not only self effectively cannot be combined with POE glued membrane, also counteracts that Silane coupler reacts with the hydroxyl condensation of glass surface hydroxyl, causes on the contrary under the adhesion strength between POE glued membrane and glass Fall.

Summary of the invention

It is an object of the invention to: solve existing POE packaging adhesive film relatively low with the adhesion strength of glass and backboard, it is impossible to Meet the problem that photovoltaic module serviceability requires, it is provided that a kind of photovoltaic component encapsulating POE with high-adhesion energy encapsulates Glued membrane and technology of preparing thereof.

In order to solve the problems referred to above, the present invention uses a kind of nano inorganic powder and silane coupler and titanate coupling agent The three component composite tackifier collectively constituted.Wherein, the nano inorganic powder being dispersed in glued membrane on the one hand can be solid at lamination The titanate coupling agent fast transferring to film surface is suppressed, it is to avoid form bubble at the interface of glued membrane with glass during change, Thus ensure the close contact of glued membrane and glass surface；On the other hand silane coupler and titanate coupling agent and glue can be strengthened Combination between film, and by the compound viscosifying action between silane coupler and titanate coupling agent, improve glued membrane to glass Glass and the adhesion strength of backboard.

Concrete technical scheme of the present invention is as follows: a kind of photovoltaic component encapsulating POE packaging adhesive film, its raw material group Become to include by mass fraction:

Preferably, the melt flow rate (MFR) of described POE resin is 13g/10min～40g/10min, light transmittance >=90%.

Preferably, described composite tackifier contains three components, respectively silane coupler, titanate coupling agent and nanometer Inorganic particle, described composite tackifier is the mixture of these three component.

Preferably, described silane coupler is vinyltrimethoxy silane, γ-methacryloxypropyl trimethoxy One in base silane, VTES, γ-glycidyl ether oxygen propyl trimethoxy silicane.

Preferably, described titanate coupling agent is two octyloxy pyrophosphoric acid ester group titanate coupling agents, dioctylphyrophosphoric acid One in acyloxy titanate coupling agent, dioctyl phosphoric acid acyloxy titanate coupling agent.

Preferably, the one during described nano inorganic powder is nano zine oxide, nano silicon, nano-titanium oxide.

Preferably, the size scope of described nano inorganic powder is 30～100nm, more preferably 40～60nm.

Preferably, the quality proportioning of silane coupler, titanate coupling agent, nano inorganic powder in described composite tackifier For: 5～3:0.5～1.5:0.03～0.06, more preferably 3.5～4.5:0.8～1.2:0.04～0.05.

Preferably, described cross-linking agent is 1,1-di-tert-butyl peroxide-3,3,5-trimethyl-cyclohexanes, peroxidating-2-second Base hexyl carbonic acid tert-pentyl ester, tert-butyl hydroperoxide carbonic acid-2-Octyl Nitrite, 1,1-cyclohexane di-tert-butyl peroxide, peroxidating One or more in the 2 ethyl hexanoic acid tert-butyl ester.

Preferably, described assistant crosslinking agent is Triallyl isocyanurate, triallylcyanurate, trimethylolpropane One or more in triacrylate.

Preferably, described UV absorbent is Octabenzone, aerosil, 2-hydroxyl One or more in base-4-methoxy benzophenone, 2-hydroxyl-4-methoxyl group-5-sulfonic group benzophenone.

Preferably, described antioxidant is β-(3,5-di-tert-butyl-hydroxy phenyl) propanoic acid octadecanol fat, three (4-nonyls Base phenol) one or more in phosphite ester and tricresyl phosphite (2,4-di-tert-butyl-phenyl) ester.

After have employed technique scheme, the present invention can realize providing the benefit that:

By using nano inorganic powder to form three component composite tackifier with silane coupler and titanate coupling agent, receive Titanate coupling agent is played inhibitory action to the migration of film surface in lamination solidification process by rice inorganic particle, it is to avoid glue Produce a large amount of bubble on interface between film and glass, thus when ensureing lamination solidification, glued membrane has abundant and tight with glass surface Close contact；Meanwhile, the nano inorganic powder being distributed in glued membrane becomes the anchor point of silane coupler and titanate coupling agent, Enhance the combination between silane coupler and titanate coupling agent and glued membrane, and by silane coupler and titanate esters coupling The compound viscosifying action of agent, further increases POE packaging adhesive film to glass and the adhesion strength of backboard, thus improves photovoltaic The sealing of assembly and the life-span of solaode.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is expanded on further.Should be understood that these embodiments are merely to illustrate this Bright, rather than limit the scope of the present invention.In addition, it is to be understood that after having read the content that the present invention lectures, this area skill The present invention can be made various changes or modifications by art personnel, and these equivalent form of values fall within the application appended claims institute equally The scope limited.In other embodiment, known method, means, material are not described in detail, in order to Highlight the purport of the present invention.

Describing in detail with in the performance test of embodiment in the present invention, test object is divided into lamination cured film and glass/glue Film/back board module.Testing lamination cured film is to investigate the crosslinking degree of packaging adhesive film and optics and mechanical property； Testing glass/glued membrane/back board module is to investigate the adhesive property between glued membrane and glass and backboard.

Describe in detail in the present invention and measure as follows with the every measured value shown in embodiment.

1, gel content

Gel content is the index characterizing glued membrane crosslinking degree.Accurately measure the film sample of 0.8～1g, with 200 Mesh copper mesh parcel is placed on extractive distillation 12h in the dimethylbenzene of micro-boiling, changes solvent twice therebetween；Take out copper mesh and be placed in baking oven In be dried to constant weight, by formula (1) calculated for gel content.

In formula, w₀It is sample quality before extraction, w₁It is extraction dried sample quality.

2, equilibrium swelling ratio

Equilibrium swelling is than the crosslink density of reflection glued membrane.At room temperature it is placed in dimethylbenzene after film sample is precisely weighed Soak, take out sample at different time and weigh, after constant weight, reach swelling equilibrium；Take out to put in baking oven by sample and be dried, The matter weight of accurate weighing desiccant gel, by formula (2) calculated equilibrium swelling ratio.

In formula, w₁It is the quality of swelling rear desiccant gel, w₂The solvent quality in cross-linked network is entered when being swelling equilibrium, ρ₁It is cross linked polymer density, ρ₂It it is solvent density.

3, glued membrane light transmittance

Use ultraviolet-uisible spectrophotometer (Shimadzu UV-2450), and test the saturating of glued membrane according to GB/T 2410-2008 Light rate, taking the meansigma methods of transmitance at wavelength 555nm, 700nm and 900nm is the light transmittance of glued membrane, specimen size be 30mm × 30mm。

4, mechanics performance of latex film

Use the hot strength of electronic material testing machine (CMT-4502, beautiful this secret service industry System Co., Ltd) test glued membrane And elongation at break.According to GB/T 528-1998, coating cutting is made as the rectangular specimen of 25mm × 6mm, draws with 500mm/min Stretch speed to test, with load during sample fracture and Deformation calculation hot strength and elongation at break, take 5 tests Meansigma methods.Computing formula is as follows:

In formula, F is measured corresponding load (N), and A is sample original cross-sectional area (mm²)。

In formula, L is the gauge length (mm) of sample, and Δ L is the increment (mm) of length between sample labelling.

5, peel strength

Use the adhesive property of glued membrane and the peel strength sign glued membrane of glass and backboard.By draw cutter glass/glued membrane/ The test sample taking a width of 1cm is drawn in the backboard face of back board module sample, draws to glued membrane face with the stripping of test glued membrane with backboard for one From power, draw to glass surface with the peeling force of test glued membrane with glass, peel off according to GB/T279-1995 adhesive tape 180 ° strong for one Degree test method is tested, grip separation speed 100mm/min.Computing formula is as follows:

180 °=F/B of σ (5)

In formula, σ 180 ° is peel strength, N/cm；F is Average peel force, N；B is specimen width, cm.

Comparative example 1:

POE resin 100 parts；Viscosifier 0.6 part；Cross-linking agent 1 part；Assistant crosslinking agent 0.8 part；Ultraviolet absorber 0.1 part；Antioxygen Agent 0.08 part.Above-mentioned raw materials proportioning is mass ratio.By various raw materials mix homogeneously in batch mixer, then put into curtain coating unit At 110 DEG C, carry out extrusion curtain coating, prepare, through drawing-off, rolling after cooling, the casting films that thickness is 0.50mm.Then will curtain coating Film on photovoltaic module laminating machine at 150 DEG C hot-press solidifying 20min, prepare lamination cured film.Again by casting films and glass and Backboard is according to the order stacking of glass/glued membrane/backboard, at 150 DEG C of cured 20min in photovoltaic module laminating machine middle level, prepares glass Glass/glued membrane/back board module.

Concrete the selection of material is: the melt flow rate (MFR) of POE resin is 30g/10min；Viscosifier are vinyl trimethoxy Base silane；Cross-linking agent is tert-butyl hydroperoxide carbonic acid-2-Octyl Nitrite；Assistant crosslinking agent is Triallyl isocyanurate；Ultraviolet Absorbent is Octabenzone；Antioxidant is three (2,4-di-tert-butyl-phenyl) phosphite ester.

Comparative example 2:

By the viscosifier in comparative example 1 by vinyltrimethoxy silane replace with vinyltrimethoxy silane with The mixture of dioctylphyrophosphoric acid acyloxy titanate coupling agent composition, the two mass ratio is 4:1.Other component and consumption are with right More identical than embodiment 1.Lamination cured film and glass/glued membrane/backboard group is prepared according to method described in comparative example 1 and condition Part.

Embodiment 1:

Viscosifier in comparative example 1 are replaced with composite tackifier, and composite tackifier is by vinyl trimethoxy The mixing that silane, dioctylphyrophosphoric acid acyloxy titanate coupling agent and nano zine oxide (ZnO, mean diameter 40.3nm) form Thing, three's mass proportioning is: vinyltrimethoxy silane: dioctylphyrophosphoric acid acyloxy titanate coupling agent: nano-ZnO= 4:1:0.04, other component and consumption are identical with comparative example 1.Prepare according to method described in comparative example 1 and condition Lamination cured film and glass/glued membrane/back board module.

The lamination cured film respectively comparative example 1, comparative example 2 and embodiment 1 prepared and glass/glued membrane/back of the body Board component is analyzed test, the results are shown in Table 1.

Table 1. comparative example 1, comparative example 2 and embodiment 1 prepared lamination cured film and the performance of assembly

Note: comparative example 2 preparation lamination cured film surface have grease, glass/glued membrane/back board module glued membrane with Glass interface has a large amount of bubble.

As seen from Table 1, the viscosifier that comparative example 1 uses are single silane coupler, the friendship of its lamination cured film Connection degree, optical property and mechanical property are the most excellent, but in assembly sample, the adhesion strength of glass and backboard is divided by glued membrane Not Zhi You 61N/cm and 47N/cm, distance photovoltaic module the requirement of packaging adhesive film adhesive property is still had gap.Comparative example 2 Have employed the viscosifier that silane coupler is compounding with titanate coupling agent, but during owing to being laminated solidification, titanate coupling agent is to glue The migration on film surface, the glued membrane at glass/glued membrane/back board module defines a large amount of bubble, therefore glued membrane pair in glass interface The adhesion strength of glass and backboard declines to a great extent, the most only 27N/cm and 13N/cm；Additionally, the crosslinking journey of lamination cured film Degree, optical property and mechanical property are also decreased obviously.Embodiment 1 have employed by silane coupler, titanate coupling agent and receives The composite tackifier of rice zinc oxide composition, owing to nano zine oxide inhibits titanate coupling agent to glue in lamination solidification process The migration on film surface, there is not bubble in the glued membrane of glass/glued membrane/back board module and glass interface.With comparative example 1 phase Ratio, the adhesion strength of glass and backboard is increased considerably by glued membrane, and peel strength respectively reaches 168N/cm and 135N/cm；And The lamination crosslinking degree of cured film, optical property and mechanical property are not the most affected.

Embodiment 2:

Viscosifier in comparative example 1 are replaced with composite tackifier, and composite tackifier is by vinyl trimethoxy The mixing that silane, dioctylphyrophosphoric acid acyloxy titanate coupling agent and nano zine oxide (ZnO, mean diameter 40.3nm) form Thing.Three's mass proportioning is adjusted to respectively: (1) 6:1:0.04；(2)5:1:0.04；(3)3:1:0.04；(4)2:1:0.04； Other component and consumption are identical with comparative example 1.Lamination cured film is prepared according to method described in comparative example 1 and condition With glass/POE glued membrane/back board module.

Lamination cured film composite tackifier different for quality proportioning in embodiment 2 prepared and assembly are analyzed surveying Examination, the results are shown in Table 2.

Table 2. embodiment 2 prepared lamination cured film and the performance of assembly

Note: (1) composite tackifier quality proportioning is the lamination cured film of 4:1:0.04 and the data of assembly property come from Embodiment 1；

(2) composite tackifier quality proportioning is that the glass/glued membrane/back board module of 2:1:0.04 goes out with glass interface at glued membrane Existing bubble.

As seen from Table 2, in composite tackifier the quality proportioning of silane coupler and titanate coupling agent to lamination cured film Considerable influence is had with the performance of assembly.When the quality proportioning of nano zine oxide is fixed as 0.04, silane coupler and titanate esters occasionally When the quality proportioning of connection agent is in the range of 5:1 to 3:1, in glass/glued membrane/back board module, glued membrane is strong to the bonding of glass and backboard Degree is maintained at higher level, and the lamination crosslinking degree of cured film, light transmittance and mechanical property are also protected.Work as silane coupler After being higher than 5:1 with the quality proportioning of titanate coupling agent, owing in composite tackifier, titanate coupling agent content is on the low side, itself and silicon The compound viscosifying action of alkane coupling agent plays inconspicuous, although the lamination crosslinking degree of cured film, light transmittance and mechanical property are still The most excellent, but in assembly, the adhesion strength of glass and backboard is significantly declined by glued membrane, and peel strength only has 78N/ respectively Cm and 52N/cm.After the quality proportioning of silane coupler with titanate coupling agent is less than 3:1, due to metatitanic acid in composite tackifier The content of ester coupling agent is more, and the nano zine oxide being dispersed in glued membrane at lamination solidification process cannot completely inhibit titanate esters occasionally The connection agent migration to film surface, causes glued membrane and glass interface in its glass/glued membrane/back board module to occur in that bubble, glued membrane The adhesion strength of glass and backboard is declined to a great extent, the most only 63N/cm and 37N/cm；Additionally, the crosslinking journey of lamination cured film Degree, optical property and mechanical property have declined.

Embodiment 3:

Viscosifier in comparative example 1 are replaced with composite tackifier, and composite tackifier is by vinyl trimethoxy The mixing that silane, dioctylphyrophosphoric acid acyloxy titanate coupling agent and nano zine oxide (ZnO, mean diameter 40.3nm) form Thing.The quality proportioning of three is adjusted to respectively: (1) 4:1:0.02；(2)4:1:0.03；(3)4:1:0.05；(4)4:1: 0.06；(5)4:1:0.07.Other component and consumption are identical with comparative example 1.According to method and bar described in comparative example 1 Part prepares lamination cured film and glass/glued membrane/back board module.

It is analyzed surveying by the lamination cured film prepared by the composite tackifier that quality proportioning is different in embodiment 3 and assembly Examination, the results are shown in Table 3.

Table 3. embodiment 3 prepared lamination cured film and the performance of assembly

Note: (1) composite tackifier quality proportioning is the lamination cured film of 4:1:0.04 and the data of assembly property come from Embodiment 1；

(2) composite tackifier quality proportioning is that the glass/glued membrane/back board module of 4:1:0.02 is on glued membrane with glass interface Reveal bubble.

As seen from Table 3, in composite tackifier, the performance of lamination cured film and assembly is had relatively by the quality proportioning of three components Big impact.When the quality proportioning of silane coupler and titanate coupling agent is at 4:1, the quality proportioning of nano zine oxide is 0.03 ～0.06 scope, the lamination crosslinking degree of cured film, light transmittance and mechanical property are preferable, glue in glass/glued membrane/back board module Film is the highest to the adhesion strength of glass and backboard, it is ensured that the sealing property of assembly.When the quality proportioning of nano zine oxide is low In 0.03 time, in addition to the crosslinking degree of lamination cured film declines, the glued membrane in assembly is to the adhesion strength of glass and backboard also The lowest.When the quality proportioning of nano zine oxide is higher than 0.06, although glued membrane is to glass and the adhesion strength of backboard in assembly Still keep higher level, but owing to glued membrane existing too much nano zine oxide, cause the optical property being laminated cured film to be subject to To considerable influence, light transmittance significantly declines, and have impact on the phototranstormation efficiency of solaode, does not meets solar energy packaging adhesive film Performance requirement.

Embodiment 4:

Viscosifier in comparative example 1 are replaced with composite tackifier, and composite tackifier is by vinyl trimethoxy Silane, dioctylphyrophosphoric acid acyloxy titanate coupling agent and the mixture of nano zine oxide composition, three's mass proportioning is: second Thiazolinyl trimethoxy silane: dioctylphyrophosphoric acid acyloxy titanate coupling agent: nano-ZnO=4:1:0.04.Wherein, nano oxygen The mean diameter changing zinc is respectively as follows: (1) 13.5nm；(2)65.8nm；(3)126.3nm.Other component is implemented with contrast with consumption Example 1 is identical.Lamination cured film and glass/glued membrane/backboard membrane assembly is prepared according to method described in comparative example 1 and condition.

Respectively the composite tackifier of the ZnO composition of different-grain diameter in embodiment 4 is prepared lamination cured film and glass/glue Film/back board module is analyzed test, the results are shown in Table 4.

Table 4. embodiment 4 prepared lamination cured film and the performance of assembly

Note: lamination cured film that the ZnO with mean diameter as 40.3nm prepares for nano inorganic powder and assembly property Data come from example 1.

As seen from Table 4, the performance of lamination cured film and assembly is had a major impact by the mean diameter of nano inorganic powder.When Composite tackifier medium vinyl trimethoxy silane, dioctylphyrophosphoric acid acyloxy titanate esters and the quality proportioning of nano zine oxide Being fixed as 4:1:0.04, when nano zine oxide mean diameter is 40.3nm and 65.8, in assembly, glass and backboard are glued by glued membrane Knotting strength is higher, meets the requirement of component package, and the light transmittance of lamination cured film is preferable with combination property.But work as nano oxygen When change zinc mean diameter is 13.5nm and 126.3nm, in assembly, the adhesion strength of glass and backboard is decreased obviously by glued membrane, And the light transmittance being laminated cured film is also decreased obviously.

Embodiment 5:

Silane coupler in embodiment 1 composite tackifier is replaced with successively by vinyltrimethoxy silane γ-first Base acryloxypropyl trimethoxy silane, VTES, γ-glycidyl ether oxygen propyl trimethoxy silicon Alkane.Titanate coupling agent in composite tackifier is still dioctylphyrophosphoric acid acyloxy titanate esters, and nano inorganic powder is still for receiving Rice zinc oxide (ZnO, mean diameter 40.3nm)；Silane coupler, titanate coupling agent and nano inorganic powder in composite tackifier The quality proportioning of body three is: 4:1:0.04, other component and consumption are same as in Example 1.According to method described in embodiment 1 and Condition prepares lamination cured film and glass/glued membrane/back board module.

The lamination the cured film respectively composite tackifier being made up of above-mentioned different silane couplers prepared and glass/glue Film/back board module is analyzed test, the results are shown in Table 5.

Table 5. embodiment 5 prepared lamination cured film and the performance of assembly

As seen from Table 5, embodiment 5 composite tackifier is respectively adopted γ-methacryloxypropyl trimethoxy silicon Alkane, VTES, γ-glycidyl ether oxygen propyl trimethoxy silicane are silane coupler, prepared curtain coating The performance of film and lamination cured film is silane coupler system with employing vinyltrimethoxy silane in embodiment 1 composite tackifier The casting films obtained and the performance of lamination cured film are suitable.

Embodiment 6:

Titanate coupling agent in embodiment 1 composite tackifier is replaced successively by dioctylphyrophosphoric acid acyloxy titanate esters It is two octyloxy pyrophosphoric acid ester group titanate esters, dioctyl phosphoric acid acyloxy titanate esters.Silane coupler in composite tackifier is still For vinyltrimethoxy silane, nano inorganic powder is still nano zine oxide (ZnO, mean diameter 40.3nm)；Compound thickening In agent, the quality proportioning of silane coupler, titanate coupling agent and nano inorganic powder three is: 4:1:0.04, other component and Consumption is same as in Example 1.Lamination cured film and glass/glued membrane/backboard group is prepared according to method described in embodiment 1 and condition Part.

The lamination the cured film respectively composite tackifier being made up of above-mentioned different titanate coupling agents prepared and glass/glue Film/back board module is analyzed test, the results are shown in Table 6.

Table 6. embodiment 6 prepared lamination cured film and the performance of assembly

As seen from Table 6, embodiment 6 composite tackifier is respectively adopted two octyloxy pyrophosphoric acid ester group titanate esters, dioctyl Phosphoric acid acyloxy titanate esters is titanate coupling agent, and the performance of prepared casting films and lamination cured film is compound with embodiment 1 to be increased Using dioctylphyrophosphoric acid acyloxy titanate esters in stick is the casting films that titanate coupling agent prepares and the property being laminated cured film Can be quite.

Embodiment 7:

Inorganic particle in embodiment 1 composite tackifier is replaced successively by nano zine oxide (ZnO, mean diameter 40.3nm) It is changed to nano silicon (SiO₂, mean diameter 42.5nm), nano titanium oxide (TiO₂, mean diameter 45.2nm).Compound increasing Silane coupler in stick is still vinyltrimethoxy silane, and titanate coupling agent is still dioctylphyrophosphoric acid acyloxy titanium Acid esters.In composite tackifier, the quality proportioning of silane coupler, titanate coupling agent and nano inorganic powder three is: 4:1: 0.04, other component and consumption are same as in Example 1.According to method described in embodiment 1 and condition prepare lamination cured film and Glass/glued membrane/back board module.

The lamination the cured film respectively composite tackifier being made up of above-mentioned different nano inorganic powders prepared and glass/glue Film/back board module is analyzed test, the results are shown in Table 7.

Table 7. embodiment 7 prepared lamination cured film and the performance of assembly

As seen from Table 7, be respectively adopted nano silicon in embodiment 7 composite tackifier, nano titanium oxide is nanometer Inorganic particle, the performance of prepared casting films and lamination cured film with employing nano zine oxide in embodiment 1 composite tackifier is Casting films and the performance of lamination cured film that nano inorganic powder prepares are suitable.

Claims (9)

1. a POE packaging adhesive film composite tackifier with high bond strength, it is characterised in that: described composite tackifier is The mixture of three components, wherein, three components are respectively silane coupler, titanate coupling agent and nano inorganic powder.

The POE packaging adhesive film composite tackifier with high bond strength the most according to claim 1, it is characterised in that: Described silane coupler is vinyltrimethoxy silane, γ-methacryloxypropyl trimethoxy silane, vinyl three One in Ethoxysilane, γ-glycidyl ether oxygen propyl trimethoxy silicane；Described titanate coupling agent is two octyloxies Pyrophosphoric acid ester group titanate coupling agent, dioctylphyrophosphoric acid acyloxy titanate coupling agent, dioctyl phosphoric acid acyloxy titanate esters One in coupling agent.

The POE packaging adhesive film composite tackifier with high bond strength the most according to claim 1, it is characterised in that: Described nano inorganic powder is nano-ZnO, Nano-meter SiO_2₂, nano-TiO₂In one.

The POE packaging adhesive film composite tackifier with high bond strength the most according to claim 1, it is characterised in that: The size scope of described nano inorganic powder is 30～100nm.

The POE packaging adhesive film composite tackifier with high bond strength the most according to claim 4, it is characterised in that: The size scope of described nano inorganic powder is 40～60nm.

The POE packaging adhesive film composite tackifier with high bond strength the most according to claim 1, it is characterised in that: In described composite tackifier, silane coupler, titanate coupling agent, the mass ratio of nano inorganic powder are: 5～3:0.4～1.6: 0.02～0.06.

The POE packaging adhesive film composite tackifier with high bond strength the most according to claim 6, it is characterised in that: In described composite tackifier, silane coupler, titanate coupling agent, the mass ratio of nano inorganic powder are: 3.5～4.5:0.8～ 1.2:0.03～0.05.

The application of the POE packaging adhesive film composite tackifier with high bond strength the most according to claim 1, its feature It is: described composite tackifier is used for preparing photovoltaic component encapsulating POE packaging adhesive film, wherein, prepares packaging adhesive film formula body In system, each raw material is included by mass fraction:

The application of the POE packaging adhesive film composite tackifier with high bond strength the most according to claim 8, its feature It is: described to prepare the melt flow rate (MFR) of POE resin in packaging adhesive film formula system be 13g/10min～40g/10min, thoroughly Light rate >=90%；Cross-linking agent is 1,1-di-tert-butyl peroxide-3,3,5-trimethyl-cyclohexanes, peroxidating-2-ethylhexyl carbon Acid tert-pentyl ester, tert-butyl hydroperoxide carbonic acid-2-Octyl Nitrite, 1,1-cyclohexane di-tert-butyl peroxide, peroxidating 2-ethyl hexyl One or more in tert-butyl acrylate；Assistant crosslinking agent is Triallyl isocyanurate, triallylcyanurate, trihydroxy methyl One or more in propane triacrylate；UV absorbent is Octabenzone, gas phase dioxy One or more in SiClx, ESCALOL 567,2-hydroxyl-4-methoxyl group-5-sulfonic group benzophenone； Antioxidant is β-(3,5-di-tert-butyl-hydroxy phenyl) propanoic acid octadecanol fat, three (4-nonyl phenol) phosphite ester and phosphorous One or more in acid three (2,4-di-tert-butyl-phenyl) ester.