CN110183981A - Glass plate processing procedure protective film after tearing without residue glue - Google Patents

Abstract

The present invention relates to protective film fields; it is a kind of tear after the glass plate processing procedure protective film without residue glue; including macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic and Anti adhesive off film; the low viscose glue adhesive layer of acrylic is coated on the one side of macromolecule resistant substrates, and Anti adhesive off film is adhered on low one side of the viscose glue adhesive layer far from macromolecule resistant substrates of acrylic；The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 33.0~62.0 parts of acrylic copolymer, 0.7~1.6 part of initiator, 0.1~1.0 part of coupling agent, 60.0~80.0 parts of diluent and 0.2~3.5 part of curing agent.Invention enhances the bonding fastnesses of acrylic low viscose glue adhesive layer and macromolecule resistant substrates, so that the low viscose glue adhesive layer of acrylic under high temperature environment still can be with macromolecule resistant substrates strong bond；The viscosity for reducing acrylic low viscose glue adhesive layer and glass plate makes it possible under high temperature environment relatively easily remove glass plate processing procedure from glass plate with protective film and will not leave behind residue glue.

Description

Glass plate processing procedure protective film after tearing without residue glue

Technical field

The present invention relates to protective film fields, more particularly to the glass plate processing procedure protective film after a kind of tear without residue glue.

Background technique

The production technology of glass plate includes: 1. raw material preprocessing.By block stock (quartz sand, soda ash, lime stone, feldspar Deng) crush, make moist raw material drying, iron-bearing material handle except iron, to guarantee glass quality.2. prepared by batch.③ It is melted.Glass batch is heated at high temperature in tank furnace or pot furnace, is allowed to form uniform, bubble-free, and meet molding and want The liquid glass asked.4. forming.Liquid glass is processed into glass plate.5. being heat-treated.By the techniques such as annealing, quenching, eliminate Or stress, split-phase or the crystallization of inside glass are generated, and change the configuration state of glass.

Also need to process by 150 DEG C~180 DEG C of hot environment after shaping glass sheets, in order to facilitate high temperature process and It avoids glass plate from wearing scuffing due to frictional impact in the fabrication process, needs a kind of high temperature resistant, anticorrosive, obdurability and light Thin glass plate processing procedure carries out good protection to glass plate under 150 DEG C~180 DEG C of hot environment with protective film, but often The protective film high temperature resistance seen is poor, and stable chemical property can not be kept under 150 DEG C of hot environment, naturally can not be in height Protective glass plate under warm environment.In order to solve this problem, people attempt the common substrate of protective film being improved to macromolecule resistance to Hot substrate solves this problem, most of macromolecule resistant substrates have good wear-resisting weather-proof high temperature resistant, it is anticorrosive and Obdurability, can actually protective glass plate under high temperature environment.But glass plate after processing is completed, it is also necessary to remove glass The protective film of plate outer surface, since existing adhesive and the adhesion strength of macromolecule resistant substrates and glass plate are relatively high, and it is high Thermal stability is poor under warm environment, more liquid, causes protective film to be difficult to remove from glass plate and can leave residue glue.

Summary of the invention

The purpose of the present invention is overcoming shortcoming in the prior art, provide it is a kind of with excellent waterproof performance, it is resistance to Glass plate processing procedure protective film without residue glue after high-temperature behavior, the tearing of corrosion resistance and obdurability, the low viscose glue of acrylic are viscous Oxidant layer under high temperature environment still can be with macromolecule resistant substrates and glass plate strong bond, and can be under high temperature environment Glass plate processing procedure is removed from glass plate with protective film relatively easily and will not leave behind residue glue.

The purpose of the present invention is achieved through the following technical solutions:

It is a kind of tear after the glass plate processing procedure protective film without residue glue, including the low viscose glue of macromolecule resistant substrates, acrylic is viscous Oxidant layer and Anti adhesive off film, the low viscose glue adhesive layer of the acrylic are coated on the one side of the macromolecule resistant substrates, institute Anti adhesive off film is stated to be adhered on one side of the low viscose glue adhesive layer of the acrylic far from the macromolecule resistant substrates；

The low viscose glue adhesive layer of the acrylic includes each component of following mass parts: acrylic copolymer 33.0~62.0 Part, 0.7~1.6 part of initiator, 0.1~1.0 part of coupling agent, 60.0~80.0 parts of diluent and 0.2~3.5 part of curing agent.

In a kind of wherein embodiment, the low viscose glue adhesive layer of the acrylic is for adhering on a glass, and institute The adhesion strength for stating the low viscose glue adhesive layer of acrylic and the macromolecule resistant substrates is > 1500 (g/25mm), and the acrylic is low The adhesion strength of viscose glue adhesive layer and the glass plate is 15~30 (g/25mm).

In a kind of wherein embodiment, the acrylic copolymer is methyl acrylate, ethyl acrylate, acrylic acid fourth Ester, Isooctyl acrylate monomer, hydroxymethylacrylate and hydroxy-ethyl acrylate wherein at least one.

In a kind of wherein embodiment, the initiator be have acyl class peroxide initiator and azo-initiator its At least one of.

In a kind of wherein embodiment, the coupling agent is organochromium complexes coupling agent, silane coupling agent, titanate esters Coupling agent and aluminic acid chemical combination compound coupling agent wherein at least one.

In a kind of wherein embodiment, the diluent is ethyl acetate, toluene, methanol, acetone, methyl ethyl ketone, hexamethylene Ketone, dimethylbenzene, n-butanol and styrene wherein at least one.

In a kind of wherein embodiment, the curing agent is isocyanates and epoxy hardener wherein at least one.

In a kind of wherein embodiment, the macromolecule resistant substrates with a thickness of 4 μm~8 μm.

In a kind of wherein embodiment, the low viscose glue adhesive layer of the acrylic with a thickness of 6 μm~10 μm.

In a kind of wherein embodiment, the Anti adhesive off film with a thickness of 47 μm~53 μm.

Compared with prior art, the present invention has at least the following advantages:

It is of the invention tear after the glass plate processing procedure protective film without residue glue the low viscose glue adhesive layer of acrylic select it is wear-resisting resistance to High temperature resistance, corrosion resistance, obdurability and sticky strong acrylic copolymer are waited, and more to increase by addition initiator The viscosity of reaction speed and enhancing acrylic copolymer between kind acrylic copolymer, and enhanced by addition coupling agent The bonding fastness of acrylic low viscose glue adhesive layer and macromolecule resistant substrates, so that the low viscose glue adhesive layer of acrylic is at 180 DEG C Still the low viscose glue adhesive layer of acrylic can be reduced in conjunction with curing agent with macromolecule resistant substrates strong bond under hot environment With the viscosity of glass plate, and the thermal stability of the low viscose glue adhesive layer of acrylic is improved, enables the low viscose glue adhesive layer of acrylic It is enough relatively easily glass plate processing procedure to be removed from glass plate with protective film under high temperature environment and will not leave behind residue glue to influence The planarization of glass plate.And the scientific matching and combination of coupling agent and curing agent and acrylic copolymer, can further it increase Wear-resisting weather-proof heat-resisting quantity, corrosion resistance and the obdurability of the low viscose glue adhesive layer of strong acrylic, thus the glass plate system of improving Wear-resisting weather-proof heat-resisting quantity, corrosion resistance and the obdurability of journey protective film can preferably be protected under 180 DEG C of hot environments Protect glass plate.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural schematic diagram of the glass plate processing procedure protective film without residue glue after the tearing of an embodiment of the present invention.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

It is a kind of tear after the glass plate processing procedure protective film without residue glue, including the low viscose glue of macromolecule resistant substrates, acrylic is viscous Oxidant layer and Anti adhesive off film, the low viscose glue adhesive layer of the acrylic are coated on the one side of the macromolecule resistant substrates, institute Anti adhesive off film is stated to be adhered on one side of the low viscose glue adhesive layer of the acrylic far from the macromolecule resistant substrates；It is described The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 33.0~62.0 parts of acrylic copolymer, initiator 0.7~ 1.6 parts, 0.1~1.0 part of coupling agent, 60.0~80.0 parts of diluent and 0.2~3.5 part of curing agent.

In order to be preferably illustrated to the glass plate processing procedure after above-mentioned tear without residue glue with protective film, on more fully understanding State the design of the glass plate processing procedure protective film after tearing without residue glue.One embodiment, referring to Fig. 1, it is a kind of tear after without residue glue Glass plate processing procedure protective film 10, including the low viscose glue adhesive layer 120 of macromolecule resistant substrates 110, acrylic and Anti adhesive off film 130, the low viscose glue adhesive layer 120 of the acrylic is coated on the one side of the macromolecule resistant substrates 110, it is described it is anti-sticking from Type film 130 is adhered on one side of the low viscose glue adhesive layer 120 of the acrylic far from the macromolecule resistant substrates 110.Institute State the low viscose glue adhesive layer 120 of acrylic for adhere on a glass, and the low viscose glue adhesive layer 120 of the acrylic with it is described The adhesion strength of macromolecule resistant substrates 110 is > 1500 (g/25mm), the low viscose glue adhesive layer 120 of acrylic and the glass The adhesion strength of plate is 15~30 (g/25mm).Adhesion strength is also sticking strength, and unit is g/25mm or gf/25mm, refers to every 25 Gram (g) in mm length is born is counted, it is understood that pull open pulling force needed for the batten of 25mm wide is how many g.

One embodiment, due to also needing to process after shaping glass sheets by hot environment, and glass plate is in manufacturing process In can inevitably be worn due tos by frictional impact etc. scuffing, pretend as the macromolecule of glass plate processing procedure protective film base material part Resistant substrates need excellent high temperature resistance, to allow macromolecule resistant substrates hot environment deformation occurs receive Contracting, and the macromolecule resistant substrates as glass plate processing procedure protective film base material part also need excellent mechanical strength, energy Protective glass plate well avoids glass plate that from being worn due tos by frictional impact etc. in the fabrication process scuffing.Energy simultaneously Enough viscose glue adhesive layer progress low with the acrylic are firmly be bonded, prevent lamination.Therefore macromolecule resistant substrates can Think thermosetting plastics and thermoplastic with excellent mechanical strength and thermal stability, and due to thermoplastic specific heat Solidity plastics are more soft docile, can be bonded with glass plate more preferably, and impact resistance is more preferable, therefore macromolecule resistant substrates are preferred For the thermoplastic with excellent mechanical strength and thermal stability.For example, macromolecule resistant substrates can be to be poly- to benzene two Formic acid glycol ester substrate, polybutylene terephthalate (PBT) substrate, acrylonitrile~butadiene~styrene substrate, polypropylene-base Material or polyoxymethylene substrate.Wherein since the comprehensive performance of polyethylene terephthalate substrate is best, it is most suitable for in glass Protective glass plate in the manufacturing process of glass plate, so macromolecule resistant substrates can be more preferably polyethylene terephthalate The comprehensive performance of substrate, polyethylene terephthalate substrate is as follows: 1, having good mechanical property, impact strength is other 3~5 times of film, folding resistance is good；2, oil resistant, resistance to fat, resistance to olefin(e) acid, diluted alkaline, resistance to most of solvents；3, with excellent resistance to High and low temperature performance can be used for a long time in 120 DEG C of temperature ranges, and short-period used is resistant to 150 DEG C of high temperature, be resistant to~70 DEG C of low temperature, And very little is influenced on its mechanical performance when high and low temperature；4, gas and vapor permeability are low, existing excellent resistance gas and water, oil and Peculiar smell performance；5, transparency is high, can stop ultraviolet light, glossiness is good.

One embodiment, the macromolecule resistant substrates with a thickness of 4 μm~8 μm, certainly, in other embodiments, institute The thickness for stating macromolecule resistant substrates is also possible to other values.But when the macromolecule resistant substrates are with a thickness of 4 μm~8 μ When m, macromolecule resistant substrates enough in the manufacturing process of glass plate to glass plate carry out good protection and with the knot of glass plate Conjunction property is more preferable.By taking macromolecule resistant substrates are polyethylene terephthalate substrate as an example, if polyethylene terephthalate The thickness of ester group material is excessively high, will increase cost of material and reduces production efficiency, and can reduce its soft docile property and light transmittance；If The thickness of polyethylene terephthalate substrate is too low, can increase its production difficulty and reduce production efficiency, and can reduce it Mechanical strength, wear-resisting weather-proof performance and shock resistance；Only when polyethylene terephthalate substrate is 4 μm~8 μm, It is with more appropriate mechanical strength, wear-resisting weather-proof heat resistance, shock resistance, corrosion resistance, soft docile performance And light transmittance, good protection can be carried out to glass plate preferably in the manufacturing process of glass plate and be bonded with glass plate More preferably.

One embodiment, the low viscose glue adhesive layer of the acrylic with a thickness of 6 μm~10 μm.Certainly, in other embodiments In, the thickness of the low viscose glue adhesive layer of the acrylic is also possible to other values.But if the low viscose glue adhesive layer of the acrylic Thickness is too low, can increase its coating technique difficulty and reduce coating technique efficiency, and reduces its adhesive strength, waterproof performance and resist Impact property；If the thickness of the low viscose glue adhesive layer of the acrylic is excessively high, it will increase cost of material and reduce production efficiency, and meeting Reduce its soft docile performance and light transmittance；Only when the low viscose glue adhesive layer of the acrylic is with a thickness of 6 μm~10 μm, With more appropriate waterproof performance, shock resistance, corrosion resistance, wear-resisting weather-proof heat resistance, adhesive strength, soft clothes Note performance and light transmittance can under high temperature environment long-term and stably carry out macromolecule resistant substrates and glass plate good It is bonded and more preferable with the stickiness of glass plate.

One embodiment, the Anti adhesive off film with a thickness of 47 μm~53 μm.Certainly, in other embodiments, described The thickness of the low viscose glue adhesive layer of acrylic is also possible to other values.It is viscous that the Anti adhesive off film is attached to the low viscose glue of the acrylic In oxidant layer, for the anti-sticking viscose glue adhesive layer low with acrylic is prevented before glass plate processing procedure protective film attaches on a glass It is contaminated.The Anti adhesive off film can be the higher any high molecular material of mechanical strength, such as poly terephthalic acid second two Alcohol ester material, high-density polyethylene resin material, butyl nitrile EP rubbers material, has polybutylene terephthalate (PBT) material Machine silicone material, amino resins material etc..In considering for production convenience, the Anti adhesive off film is preferably poly- to benzene two Formic acid glycol ester material.

One embodiment, the low viscose glue adhesive layer of the acrylic include each component of following mass parts: acrylic copolymer 33.0~62.0 parts, 0.7~1.6 part of initiator, 0.1~1.0 part of coupling agent, 60.0~80.0 parts of diluent and curing agent 0.2 ~3.5 parts.It is appreciated that for glass plate processing procedure protective film, the selection of raw material be it is vital, pass through and propylene be provided Acid copolymer, initiator, coupling agent, diluent and curing agent can make as the raw material for preparing the low viscose glue adhesive layer of acrylic The low viscose glue adhesive layer of the acrylic that must be prepared has good stripping performance, waterproof performance, shock resistance, corrosion resistance Energy, wear-resisting weather-proof heat resistance, soft docile performance and light transmittance, can be under high temperature environment long-term and stably to macromolecule Resistant substrates and glass plate carry out strong bond, and can be relatively easily by glass plate processing procedure protective film from glass plate It removes, and will not leave behind residue glue to influence the planarization of glass plate.

One embodiment, the acrylic copolymer are methyl acrylate, ethyl acrylate, butyl acrylate, acrylic acid Different monooctyl ester, hydroxymethylacrylate and hydroxy-ethyl acrylate wherein at least one.Further, the acrylic copolymer is propylene Sour methyl esters, ethyl acrylate, butyl acrylate, Isooctyl acrylate monomer, hydroxymethylacrylate and hydroxy-ethyl acrylate are wherein at least A kind of monomer is copolymerized by way of emulsion polymerization.For example, the acrylic copolymer is ethyl acrylate, acrylic acid fourth Ester, Isooctyl acrylate monomer, hydroxymethylacrylate and hydroxy-ethyl acrylate are copolymerized by way of emulsion polymerization.For example, institute Stating acrylic copolymer is 2.0~7.0 parts of ethyl acrylates, 8.0~12.0 parts of butyl acrylates, 20.0~30.0 parts of acrylic acid Different monooctyl ester, 1.0~5.0 parts of hydroxymethylacrylates and 2.0~8.0 parts of hydroxy-ethyl acrylates be copolymerized by way of emulsion polymerization and At.In this way, can obtain having the third of good waterproof performance, shock resistance, corrosion resistance and wear-resisting weather-proof heat resistance Olefin(e) acid copolymer, still, by the acrylic copolymer of this raw material preparation since molecular weight is excessive and excessively sticky, therefore copolyreaction Speed is slower, and coating effect is bad, and light transmittance is lower, and viscosity is higher.

In order to improve the acrylic copolymer of above embodiment, diluent is added in acrylic copolymer.One implements Mode, the diluent are ethyl acetate, toluene, methanol, acetone, methyl ethyl ketone, cyclohexanone, dimethylbenzene, n-butanol and styrene Wherein at least one.It is appreciated that improving copolyreaction speed, and improve to reduce the vicidity of acrylic copolymer Effect is coated, therefore adds diluent in acrylic copolymer.In order to reduce the viscosity of acrylic copolymer, the diluent is excellent It is selected as non-activated thinner.Non-activated thinner suitable for acrylic copolymer include ethyl acetate, toluene, methanol, acetone, Methyl ethyl ketone, cyclohexanone, dimethylbenzene, n-butanol and styrene.For example, the diluent is by ethyl acetate, methanol, toluene and acetone Composition.For example, the diluent by 30.0~50.0 parts of ethyl acetates, 5.0~10.0 parts of methanol, 5.0~10.0 parts of toluene and 5.0~10.0 parts of acetone compositions.The vicidity of acrylic copolymer can be so reduced, copolyreaction speed is improved, improves and applies Effect is covered, and reduces the viscosity of acrylic copolymer.

It should be noted that the proportion of acrylic copolymer and diluent be it is vital, if the proportion of diluent It is low, it will lead to that acrylic copolymer is excessively sticky, and copolyreaction speed is slower, coating effect is bad, and light transmittance is lower and viscous Property is excessively high；If the proportion of diluent is excessively high, it is excessive rarefied to will lead to acrylic copolymer, and viscosity is too low, and curing time is too long；Only Have when 60.0~80.0 parts of diluent, just meeting moderate concentration, copolyreaction fast speed, coating effect are good for acrylic copolymer Good, viscosity is moderate.

In order to improve the acrylic copolymer of above embodiment, initiator is added in acrylic copolymer.One implements Mode, the initiator are to have acyl class peroxide initiator and azo-initiator wherein at least one.It is appreciated that causing Agent is usually the compound for having weak bond, easily resolving into reactive species, and wherein covalent bond has two kinds of forms of homolysis and heterolytic fission, can cause The substance of monomer progress polymerization reaction.There are free radical type, anionic, cationic in polymerization of unsaturated monomers activated centre and match Position compound etc., applying in adhesive industry at most at present is free radical type, including per-compound initiator and azo Class initiator and redox initiator etc., it shows unique chemical activity, and covalent bond occurs under the action of heat or light Homolysis and generate two free radicals, being capable of initiated polymerization.In order to improve the copolyreaction speed of acrylic copolymer, therefore Initiator is added in acrylic copolymer.Due to the special chemical property of acrylic compounds reactant, therefore initiator should be selected as Acyl class peroxide initiator and azo-initiator.Further, the acyl class peroxide initiator includes benzoyl peroxide Formyl, lauroyl peroxide, dilauroyl peroxide etc..The azo-initiator includes that azodiisobutyronitrile, azo two are different Valeronitrile, azobisisoheptonitrile, azo isobutyl cyano formamide, azo diisopropyl imidazoline hydrochloride, azo-bis-iso-dimethyl etc..Example Such as, the initiator is made of acyl class peroxide initiator and azo-initiator.For example, the initiator is by 0.2~0.7 Part acyl class peroxide initiator and 0.5~0.9 part of azo-initiator composition.For example, the initiator is by 0.2~0.7 part Dilauroyl peroxide and 0.5~0.9 part of azodiisobutyronitrile composition.In this way, suitable initiator can be obtained, can further add The copolyreaction speed of fast acrylic copolymer.

It should be noted that the proportion of acrylic copolymer and initiator be it is vital, since initiator can add The copolyreaction speed of fast acrylic copolymer, therefore naturally also will increase the viscosity of acrylic copolymer.If the proportion of initiator It is excessively high, it can be generated when will lead to the sticky excessively high of acrylic copolymer, and being more than the 3% of acrylic copolymer gross mass a large amount of solidifying Glue causes reaction that can not carry out；If the proportion of initiator is too low, the copolyreaction speed that will lead to acrylic copolymer is excessively slow, Viscosity is too low；Only when the proportion of initiator is 0.7~1.6 part, it can just accelerate the copolyreaction speed of acrylic copolymer Degree, so that the viscosity of acrylic copolymer is moderate.

In order to improve the acrylic copolymer of above embodiment, coupling agent is added in acrylic copolymer.One implements Mode, the coupling agent are organochromium complexes coupling agent, silane coupling agent, titanate coupling agent and aluminic acid chemical combination compound coupling agent Wherein at least one.It is appreciated that coupling agent is a kind of tool there are two types of the substance of heterogeneity functional group, molecular structure is most Big feature be containing two groups that chemical property is different in molecule, one be close inorganic matter group, can be risen with glass surface Chemical reaction；The other is organophilic group, chemical reaction can occur with macromolecule resistant substrates or generation hydrogen bond is dissolved in Wherein, therefore the combination of the low viscose glue adhesive layer of acrylic and macromolecule resistant substrates can be made stronger, and acrylic can be made low viscous The combination of gluing oxidant layer and glass plate is stronger.Due to coupling agent can be reacted with certain groups of glass surface and with height The reaction of molecule resistant substrates, forms a boundary layer between glass and macromolecule resistant substrates, and boundary layer can transmit stress, therefore Adhesive strength between glass and macromolecule resistant substrates can be enhanced, while other media can also be prevented to contacting permeation, is changed Kind interface state plays good reinforcing effect to the modification of acrylic low viscose glue adhesive layer, is conducive to improve the low viscose glue of acrylic Wear-resisting weather-proof high temperature resistance, corrosion resistance and the tensile strength of adhesive layer.Further, the machine chromium complex coupling agent It is the metal chromium complex formed by unsaturated organic acid and trivalent chromic ion.Further, the silane coupling agent is applicable in Type is more, typical silane coupling agent have vinyltriethoxysilane, vinyltrimethoxysilane, vinyl three (β~ Methoxyethoxy) silane) etc..Further, according to their unique molecular structures, the titanate coupling agent includes: 1. single Alcoxyl fundamental mode, such as three different stearic phthalein oxygroup isopropyl titanates, dioctylphosphato isopropyl titanate etc.；2. monoalkoxy is burnt Phosphate type, such as isopropyl tri titanate, dioctyl isopropyl titanate, pyrophosphoric acid oxygroup isopropyl titanate, dibutyl pyrophosphoryl Oxygroup isopropyl titanate etc.；3. chelating type, such as dioctylphosphato oxyacetate, glyoxylic esters, dioctyl phosphinylidyne oxygen Base metatitanic acid second diester etc.；And 4. it is coordinated figure.The aluminic acid chemical combination compound coupling agent includes aluminic acid zirconium coupling agent, magnesium aluminate coupling Agent, aluminic acid tin coupling agent etc..For example, the coupling agent is 0.1~1.0 part of machine chromium complex coupling agent.For example, the coupling agent For 0.1~1.0 part of silane coupling agent.For example, the coupling agent is 0.1~1.0 part of titanate coupling agent.For example, the coupling Agent is 0.1~1.0 part of vinyltriethoxysilane.For example, the coupling agent is 0.1~1.0 part of dioctyl isopropyl titanate.

The performance of acrylic copolymer is had a very big impact it should be noted that whether adding coupling agent, although It is coupled agent content very little, but the coupling agent of content very little can be reacted with acrylic copolymer, be modified to acrylic copolymer To very important reinforcing effect, wear-resisting weather-proof high temperature resistance, the corrosion resistance of acrylic copolymer can be further increased Energy and tensile strength, so that it is in hot environment, the service life is longer.Moreover, the proportion of acrylic copolymer and coupling agent It is vital, if the proportion of coupling agent is excessively high, the viscosity that will lead to acrylic copolymer and glass plate is too strong；If coupling agent Proportion it is too low, it is unobvious to the reinforcing effect of acrylic copolymer to will lead to coupling agent；Only when coupling agent is 0.1~1.0 When part, coupling agent could carry out good reinforcing effect to acrylic copolymer, can effectively increase the low viscose glue stick of acrylic Wear-resisting weather-proof high temperature resistance, corrosion resistance and the tensile strength of layer, so that the low viscose glue adhesive layer of acrylic is in hot environment The service life is longer, and viscosity is moderate.

In order to adjust above embodiment acrylic copolymer viscosity, curing agent is added in acrylic copolymer. One embodiment, the curing agent are isocyanates and epoxy hardener wherein at least one.Further, the curable epoxide Agent includes: 1. alkaline curing agent, such as aliphatic diamine, polyamines, aromatic polyamine, dicyandiamide, imidazoles, modified amine etc.； 2. acid curing agent, such as organic acid anhydride, boron trifluoride and complex compound etc.；3. add-on type curing agent, such as fatty amines, fragrance Race, cycloaliphatic ring class, modified amine, anhydride, Versamid and latency amine；And 4. catalytic curing agent, such as three Grade amine and imidazoles.For example, the curing agent is made of isocyanates and epoxy hardener.For example, the curing agent is by 0.1 ~3.0 parts of isocyanates and 0.1~0.5 part of epoxy hardener composition.In order to make acrylic copolymer hot environment keep compared with Good thermal stability, reaches better heat resistance, the curing agent is preferably the better aromatic polyamine of heat resistance.Example Such as, the curing agent is made of 0.1~3.0 part of isocyanates and 0.1~0.5 part of aromatic polyamine.For example, the curing agent by 0.1~3.0 part of isocyanates and 0.1~0.5 part of diaminodiphenyl-methane composition.It is appreciated that the curing agent be used for Acrylic copolymer chemically reacts, and forms netted space polymers, that is, acrylic copolymer is promoted to be cured reaction, energy The viscosity for enough reducing acrylic copolymer, so that the viscosity of acrylic copolymer and glass reaches certain desired value.

It should be noted that the proportion of acrylic copolymer and curing agent be also it is vital, if the proportion of curing agent Excessively high, too strong with the curing reaction of acrylic copolymer, the mobility that will lead to acrylic copolymer is excessively weak, with glass plate Viscosity is too low, can not adhering glass plate；It is excessively weak with the curing reaction of acrylic copolymer if the proportion of curing agent is too low, meeting Cause the mobility of acrylic copolymer too strong, thermal stability is poor, and it is excessively high with the viscosity of glass plate, it is difficult under high temperature environment Glass plate processing procedure is removed from glass plate with protective film and easily leaves residue glue；Only when curing agent is 0.2~3.5 part, It is moderate with the curing reaction of acrylic copolymer, cause the better heat stability of acrylic copolymer, mobility is moderate, and can The viscosity of acrylic copolymer and glass plate is reduced to desired value, so that the low viscose glue adhesive layer of acrylic is under high temperature environment Still can be with strong bond macromolecule resistant substrates and glass plate, and it under high temperature environment can be relatively easily by glass plate system Journey is removed from glass plate with protective film and will not leave behind residue glue to influence the planarization of glass plate.

Since acrylic copolymer and macromolecule resistant substrates are organic compounds, and glass is inorganic compound, therefore Acrylic copolymer and the adhesion strength of macromolecule resistant substrates are higher than the adhesion strength of acrylic copolymer and glass.Through excessive Secondary test discovery, when (adhesion strength a) is higher, and acrylic is low for the adhesion strengths of the low viscose glue adhesive layer of acrylic and macromolecule resistant substrates (adhesion strength b) is lower and reaches certain numerical value and adhesion strength a is higher than adhesion strength b for the adhesion strength of viscose glue adhesive layer and glass plate When to certain numerical value, glass plate processing procedure protective film can be easier to be stripped from glass plate and will not leave behind residue glue.It presses This purpose, research staff have invented a kind of low viscose glue adhesive layer of acrylic by repeatedly debugging formula, the low viscose glue of this acrylic Adhesive layer formula include following mass parts each component: 33.0~62.0 parts of acrylic copolymer, 0.7~1.6 part of initiator, 0.1~1.0 part of coupling agent, 60.0~80.0 parts of diluent and 0.2~3.5 part of curing agent.The Ya Ke far from preparation is formulated by this The low viscose glue adhesive layer of power, an embodiment, the low viscose glue adhesive layer of the acrylic is for adhering on a glass, and the Asia The adhesion strength of the low viscose glue adhesive layer of gram force and the macromolecule resistant substrates is > 1500 (g/25mm), the low viscose glue of the acrylic The adhesion strength of adhesive layer and the glass plate is 15~30 (g/25mm).It so under high temperature environment can be relatively easily by glass Glass plate processing procedure is removed from glass plate with protective film and will not leave behind residue glue to influence the planarization of glass plate.

The following are specific examples part.

Embodiment 1

Glass plate processing procedure protective film after tearing without residue glue includes: macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic And Anti adhesive off film, the low viscose glue adhesive layer of acrylic are coated on the one side of macromolecule resistant substrates, Anti adhesive off film bonding In on low one side of the viscose glue adhesive layer far from macromolecule resistant substrates of acrylic；The material of macromolecule resistant substrates is poly- to benzene Naphthalate, macromolecule resistant substrates with a thickness of 4 μm；The material of Anti adhesive off film is polyethylene terephthalate Ester, Anti adhesive off film with a thickness of 47 μm；The low viscose glue adhesive layer of acrylic with a thickness of 6 μm.

The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 2.0 parts of ethyl acrylate, butyl acrylate 12.0 parts, 20.0 parts of Isooctyl acrylate monomer, 5.0 parts of hydroxymethylacrylate, 2.0 parts of hydroxy-ethyl acrylate, 50.0 parts of ethyl acetate, 5.0 parts of methanol, 10.0 parts of toluene, 5.0 parts of acetone, 0.7 part of dilauroyl peroxide, 0.5 part of azodiisobutyronitrile, three second of vinyl 0.1 part and 0.5 part 1.0 parts of oxysilane, isocyanates diaminodiphenyl-methane.

The low viscose glue adhesive layer adherency of the acrylic on a glass, and the low viscose glue adhesive layer of the acrylic with it is described The adhesion strength of macromolecule resistant substrates is 1520 (g/25mm), the adhesion of the acrylic low viscose glue adhesive layer and the glass plate Power is 15 (g/25mm).

Embodiment 2

Glass plate processing procedure protective film after tearing without residue glue includes: macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic And Anti adhesive off film, the low viscose glue adhesive layer of acrylic are coated on the one side of macromolecule resistant substrates, Anti adhesive off film bonding In on low one side of the viscose glue adhesive layer far from macromolecule resistant substrates of acrylic；The material of macromolecule resistant substrates is poly- to benzene Naphthalate, macromolecule resistant substrates with a thickness of 8 μm；The material of Anti adhesive off film is polyethylene terephthalate Ester, Anti adhesive off film with a thickness of 53 μm；The low viscose glue adhesive layer of acrylic with a thickness of 10 μm.

The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 7.0 parts of ethyl acrylate, butyl acrylate 8.0 parts, 30.0 parts of Isooctyl acrylate monomer, 1.0 parts of hydroxymethylacrylate, 8.0 parts of hydroxy-ethyl acrylate, 30.0 parts of ethyl acetate, 10.0 parts of methanol, 5.0 parts of toluene, 10.0 parts of acetone, 0.2 part of dilauroyl peroxide, 0.9 part of azodiisobutyronitrile, vinyl three 3.0 parts and 0.1 part 0.1 part of Ethoxysilane, isocyanates diaminodiphenyl-methane.

The low viscose glue adhesive layer adherency of the acrylic on a glass, and the low viscose glue adhesive layer of the acrylic with it is described The adhesion strength of macromolecule resistant substrates is 1680 (g/25mm), the adhesion of the acrylic low viscose glue adhesive layer and the glass plate Power is 30 (g/25mm).

Embodiment 3

Glass plate processing procedure protective film after tearing without residue glue includes: macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic And Anti adhesive off film, the low viscose glue adhesive layer of acrylic are coated on the one side of macromolecule resistant substrates, Anti adhesive off film bonding In on low one side of the viscose glue adhesive layer far from macromolecule resistant substrates of acrylic；The material of macromolecule resistant substrates is poly- to benzene Naphthalate, macromolecule resistant substrates with a thickness of 6 μm；The material of Anti adhesive off film is polyethylene terephthalate Ester, Anti adhesive off film with a thickness of 50 μm；The low viscose glue adhesive layer of acrylic with a thickness of 8 μm.

The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 4.5 parts of ethyl acrylate, butyl acrylate 10.0 parts, 25.0 parts of Isooctyl acrylate monomer, 3.0 parts of hydroxymethylacrylate, 5.0 parts of hydroxy-ethyl acrylate, 40.0 parts of ethyl acetate, 7.5 parts of methanol, 7.5 parts of toluene, 7.5 parts of acetone, 0.5 part of dilauroyl peroxide, 0.7 part of azodiisobutyronitrile, three second of vinyl 1.6 parts and 0.3 part 0.6 part of oxysilane, isocyanates diaminodiphenyl-methane.

The low viscose glue adhesive layer adherency of the acrylic on a glass, and the low viscose glue adhesive layer of the acrylic with it is described The adhesion strength of macromolecule resistant substrates is 1600 (g/25mm), the adhesion of the acrylic low viscose glue adhesive layer and the glass plate Power is 20 (g/25mm).

Embodiment 4

Glass plate processing procedure protective film after tearing without residue glue includes: macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic And Anti adhesive off film, the low viscose glue adhesive layer of acrylic are coated on the one side of macromolecule resistant substrates, Anti adhesive off film bonding In on low one side of the viscose glue adhesive layer far from macromolecule resistant substrates of acrylic；The material of macromolecule resistant substrates is poly- to benzene Naphthalate, macromolecule resistant substrates with a thickness of 6 μm；The material of Anti adhesive off film is butyl nitrile EP rubbers, is prevented Viscous release film with a thickness of 50 μm；The low viscose glue adhesive layer of acrylic with a thickness of 8 μm.

The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 3.2 parts of methyl acrylate, butyl acrylate 11.5 parts, 22.1 parts of Isooctyl acrylate monomer, 4.2 parts of hydroxymethylacrylate, 4.1 parts of hydroxy-ethyl acrylate, 45.9 parts of ethyl acetate, 6.8 parts of methanol, 9.1 parts of toluene, 7.3 parts of cyclohexanone, 0.6 part of dilauroyl peroxide, 0.6 part of azobisisoheptonitrile, vinyl three 0.9 part and 0.4 part 0.9 part of Ethoxysilane, isocyanates dioctyl isopropyl titanate.

The low viscose glue adhesive layer adherency of the acrylic on a glass, and the low viscose glue adhesive layer of the acrylic with it is described The adhesion strength of macromolecule resistant substrates is 1580 (g/25mm), the adhesion of the acrylic low viscose glue adhesive layer and the glass plate Power is 22 (g/25mm).

Embodiment 5

Glass plate processing procedure protective film after tearing without residue glue includes: macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic And Anti adhesive off film, the low viscose glue adhesive layer of acrylic are coated on the one side of macromolecule resistant substrates, Anti adhesive off film bonding In on low one side of the viscose glue adhesive layer far from macromolecule resistant substrates of acrylic；The material of macromolecule resistant substrates is poly- to benzene Dioctyl phthalate butanediol ester, macromolecule resistant substrates with a thickness of 6 μm；The material of Anti adhesive off film is butyl nitrile EP rubbers, is prevented Viscous release film with a thickness of 50 μm；The low viscose glue adhesive layer of acrylic with a thickness of 8 μm.

The low viscose glue adhesive layer of acrylic includes each component of following mass parts: 6.3 parts of methyl acrylate, butyl acrylate 9.3 parts, 28.2 parts of Isooctyl acrylate monomer, 2.7 parts of hydroxymethylacrylate, 7.9 parts of hydroxy-ethyl acrylate, 33.6 parts of ethyl acetate, 8.3 parts of methanol, 6.2 parts of toluene, 9.3 parts of cyclohexanone, 0.3 part of dilauroyl peroxide, 0.8 part of azobisisoheptonitrile, vinyl three 2.3 parts and 0.2 part 0.3 part of Ethoxysilane, isocyanates dioctyl isopropyl titanate.

The low viscose glue adhesive layer adherency of the acrylic on a glass, and the low viscose glue adhesive layer of the acrylic with it is described The adhesion strength of macromolecule resistant substrates is 1650 (g/25mm), the adhesion of the acrylic low viscose glue adhesive layer and the glass plate Power is 28 (g/25mm).

Comparative example 1

Comparison glass plate processing procedure protective film include: macromolecule resistant substrates, the low viscose glue adhesive layer of acrylic and it is anti-sticking from Type film, the low viscose glue adhesive layer of acrylic are coated on the one side of macromolecule resistant substrates, and Anti adhesive off film is adhered to acrylic On low one side of the viscose glue adhesive layer far from macromolecule resistant substrates；The material of macromolecule resistant substrates is poly terephthalic acid second Diol ester, macromolecule resistant substrates with a thickness of 6 μm；The material of Anti adhesive off film is polyethylene terephthalate, anti-sticking Release film with a thickness of 50 μm；The low viscose glue adhesive layer of acrylic with a thickness of 8 μm.

The low viscose glue adhesive layer of acrylic is using the acrylic adhesive bought on the market.

Properties test is carried out to Examples 1 to 5 and ratio 1, wherein table 1 is the items of embodiment 3 and comparative example 1 It can test data table.

Table 1

As can be seen from Table 1, the obdurability of the low viscose glue adhesive layer of the acrylic of embodiment 3, heat resistance and corrosion resistance are remote Viscose glue adhesive layer low higher than the acrylic of comparative example 1 is much higher than the adhesion to glass plate to the adhesion strength of macromolecule resistant substrates Power, and moderate to the adhesion strength of macromolecule resistant substrates and glass plate, thus can under 180 DEG C of hot environments with the resistance to hot radical of macromolecule Material and glass plate strong bond, and remove will not leave behind residue glue under high temperature environment.

Compared with prior art, the present invention has at least the following advantages:

It is of the invention tear after the glass plate processing procedure protective film without residue glue the low viscose glue adhesive layer of acrylic select it is wear-resisting resistance to High temperature resistance, corrosion resistance, obdurability and sticky strong acrylic copolymer are waited, and more to increase by addition initiator The viscosity of reaction speed and enhancing acrylic copolymer between kind acrylic copolymer, and enhanced by addition coupling agent The bonding fastness of acrylic low viscose glue adhesive layer and macromolecule resistant substrates, so that the low viscose glue adhesive layer of acrylic is at 180 DEG C Still the low viscose glue adhesive layer of acrylic can be reduced in conjunction with curing agent with macromolecule resistant substrates strong bond under hot environment With the viscosity of glass plate, and the thermal stability of the low viscose glue adhesive layer of acrylic is improved, enables the low viscose glue adhesive layer of acrylic It is enough relatively easily glass plate processing procedure to be removed from glass plate with protective film under high temperature environment and will not leave behind residue glue to influence The planarization of glass plate.And the scientific matching and combination of coupling agent and curing agent and acrylic copolymer, can further it increase Wear-resisting weather-proof heat-resisting quantity, corrosion resistance and the obdurability of the low viscose glue adhesive layer of strong acrylic, thus the glass plate system of improving Wear-resisting weather-proof heat-resisting quantity, corrosion resistance and the obdurability of journey protective film can preferably be protected under 180 DEG C of hot environments Protect glass plate.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. it is a kind of tear after the glass plate processing procedure protective film without residue glue, which is characterized in that including macromolecule resistant substrates, acrylic Low viscose glue adhesive layer and Anti adhesive off film, the low viscose glue adhesive layer of the acrylic are coated on the side of the macromolecule resistant substrates On face, the Anti adhesive off film is adhered to one side of the low viscose glue adhesive layer of the acrylic far from the macromolecule resistant substrates On；

Wherein, the low viscose glue adhesive layer of the acrylic includes each component of following mass parts: acrylic copolymer 33.0~62.0 Part, 0.7~1.6 part of initiator, 0.1~1.0 part of coupling agent, 60.0~80.0 parts of diluent and 0.2~3.5 part of curing agent.

2. it is according to claim 1 tear after the glass plate processing procedure protective film without residue glue, which is characterized in that the acrylic Low viscose glue adhesive layer is for adhering on a glass, and the low viscose glue adhesive layer of the acrylic and the macromolecule resistant substrates Adhesion strength be > 1500 (g/25mm), the adhesion strength of the low viscose glue adhesive layer of the acrylic and the glass plate is 15~30 (g/25mm)。

3. it is according to claim 1 tear after the glass plate processing procedure protective film without residue glue, which is characterized in that the macromolecule Resistant substrates with a thickness of 4 μm~8 μm.

4. it is according to claim 1 tear after the glass plate processing procedure protective film without residue glue, which is characterized in that the acrylic Low viscose glue adhesive layer with a thickness of 6 μm~10 μm.

5. it is according to claim 1 tear after the glass plate processing procedure protective film without residue glue, which is characterized in that it is described it is anti-sticking from Type film with a thickness of 47 μm~53 μm.

6. according to claim 1~5 it is any it is described tear after the glass plate processing procedure protective film without residue glue, which is characterized in that institute State acrylic copolymer be methyl acrylate, ethyl acrylate, butyl acrylate, Isooctyl acrylate monomer, hydroxymethylacrylate and Hydroxy-ethyl acrylate wherein at least one.

7. according to claim 1~5 it is any it is described tear after the glass plate processing procedure protective film without residue glue, which is characterized in that institute Stating initiator is to have acyl class peroxide initiator and azo-initiator wherein at least one.

8. according to claim 1~5 it is any it is described tear after the glass plate processing procedure protective film without residue glue, which is characterized in that institute State coupling agent be organochromium complexes coupling agent, silane coupling agent, titanate coupling agent and aluminic acid chemical combination compound coupling agent wherein extremely Few one kind.

9. according to claim 1~5 it is any it is described tear after the glass plate processing procedure protective film without residue glue, which is characterized in that institute State diluent be ethyl acetate, toluene, methanol, acetone, methyl ethyl ketone, cyclohexanone, dimethylbenzene, n-butanol and styrene wherein at least It is a kind of.

10. according to claim 1~5 it is any it is described tear after the glass plate processing procedure protective film without residue glue, which is characterized in that institute Stating curing agent is isocyanates and epoxy hardener wherein at least one.