CN108395564A

CN108395564A - A kind of high-barrier PE coated films and preparation method thereof for liquid food packing

Info

Publication number: CN108395564A
Application number: CN201810213814.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-03-15
Filing date: 2018-03-15
Publication date: 2018-08-14

Abstract

The high-barrier PE coated films and preparation method thereof that the invention discloses a kind of for liquid food packing, including modified PE film, modified EVOH latex is coated on the outer surface of the modified PE film, the coating inside surfaces of modified PE film have modified MXD6 latex；The modified PE film includes following raw material：PE films, acetone, ultra-pure water, absolute ethyl alcohol, methyl methacrylate, polyethylenimine solution, modified EVOH latex includes following raw material：Vinyl acetate, vinyl monomer, the tert-butyl alcohol, methanol, sodium hydroxide, acetone, ultra-pure water, perbenzoic acid, 6 tert-butyl-m-cresols, polyoxyethylene laurate, zinc sulfate, trimethylolpropane, diethylene glycol dibenzoate, modified MXD6 latex includes following raw material：Adipic acid, m-xylene diamine, ultra-pure water, disodium hydrogen phosphate, polyethylene glycol.The present invention solves the technical issues of modified PE film oxygen transmission rate height declines with barrier property with the rising of humidity.

Description

A kind of high-barrier PE coated films and preparation method thereof for liquid food packing

Technical field

The present invention relates to high barrier coating material technical fields, specially a kind of high-barrier for liquid food packing PE coated films and preparation method thereof.

Background technology

One important technology of flexible packaging requires to be to have good choke resistance moist, because of the corruption of many food Rotten is to provide necessary item to the flourish of bacterium since oxygen and moisture penetration are crossed packaging material and entered in food As a result part causes the oxidation deterioration of food.

For liquid foods such as dairy produces, in the environment due to needing to be stored in low temperature high humility, and PE films have Excellent resistance to low temperature, reachable -70 degrees Celsius of minimum temperature in use, chemical stability is good, and to the transmitance of vapor ratio Poor, particularly suitable for packing waterproof, moisture-proof article, while PE is made of hydrocarbon, toxicity itself is low, be health plastic most Good one of kind, so the liquid foods generally use PE materials such as dairy produce are packed.

But the gas permeability of PE materials is preferable, especially oxygen transmission rate is very high.EVOH resins are coated on PE films, it can Play the technique effect of enhancing barrier property.The most distinguishing feature of EVOH resins is its iris action to gas.It is used in In packaging structure, the reserving degree of fragrance and quality is improved by preventing the infiltration of oxygen.In addition, its transparent, glossiness, Mechanical strength, retractility, wearability, cold resistance and surface strength are all very excellent.

But since there is hydroxyls, EVOH resins to have hydrophily and hygroscopicity in the molecular structure of EVOH resins. After adsorbed moisture, the barrier property of gas can be affected, and the maximum feature of MXD6 is barrier property not with the rising of humidity And decline, while also there is the good transparency and paracentesis resistance.

Invention content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of high-barrier PE coated films for liquid food packing and Preparation method has and improves blocking oxygen performance, improves the advantages that moisture barrier property is with preparation efficiency is improved, solves modified PE The technical issues of film oxygen transmission rate height declines with barrier property with the rising of humidity.

(2) technical solution

For the purpose realized above-mentioned raising blocking oxygen performance, improve moisture barrier property and raising preparation efficiency, the present invention carries For following technical solution：

A kind of high-barrier PE coated films for liquid food packing, including modified PE film, the modified PE film Modified EVOH latex is coated on outer surface, the coating inside surfaces of modified PE film have modified MXD6 latex；

The modified PE film includes the raw material of following parts by weight proportioning：70-80 parts of PE films, surpass 30-50 parts of acetone 80-120 parts of pure water, 120-180 parts of absolute ethyl alcohol, 20-30 parts of methyl methacrylate, 10-15 parts of polyethylenimine solution；

The modified EVOH latex includes the raw material of following parts by weight proportioning：50-70 parts of vinyl acetate, vinyl monomer 10-25 parts, 100-150 parts of the tert-butyl alcohol, 200-240 parts of methanol, 20-50 parts of sodium hydroxide, 100-150 parts of acetone, ultra-pure water 200-220 parts, 1-2 parts of perbenzoic acid, 0.5-3 parts of 6- tert-butyl-m-cresols, 0.05-2 parts of polyoxyethylene laurate, sulphur Sour zinc 0.5-1 parts, 0.08-0.1 parts of trimethylolpropane, 1-3 parts of diethylene glycol dibenzoate；

The modified MXD6 latex includes the raw material of following parts by weight proportioning：5-10 parts of adipic acid, m-xylene diamine 4-6 Part, 10-15 parts of ultra-pure water, 0.05-0.1 parts of disodium hydrogen phosphate, 10-15 parts of polyethylene glycol；

The thickness of the modified PE film is 40-80 μm, the modification EVOH glue being coated on the outer surface of modified PE film The thickness of breast is 7.5-8.0 μm, and the thickness of the modification MXD6 latex of the coating inside surfaces of modified PE film is 8.5-9.0 μ m；

The high-barrier PE coated films, continuous interior for 24 hours at atmosheric pressure, oxygen transmission rate 0.012-0.048ml/mil/ 100in², at 100 DEG C of temperature and 90% relative humidity, moisture vapor permeable rate 0.007-0.011ml/mil/100in²；

The density of the high-barrier PE coated films is 1.96-2.16g/cm, fusing point is 175-193 DEG C, tensile break strength For 115-152MPa, elongation at break >=169%.

Preferably, the thickness of the modified PE film is 65 μm, the modification being coated on the outer surface of modified PE film The thickness of EVOH latex is 8.0 μm, and the thickness of the modification MXD6 latex of the coating inside surfaces of modified PE film is 8.5 μm.

Preferably, the modified PE film includes the raw material of following parts by weight proportioning：75 parts of PE films, 50 parts of acetone, 100 parts of ultra-pure water, 150 parts of absolute ethyl alcohol, 12 parts of methyl methacrylate, 13 parts of polyethylenimine solution.

Preferably, the modified EVOH latex includes the raw material of following parts by weight proportioning：60 parts of vinyl acetate, ethylene 20 parts of monomer, 120 parts of the tert-butyl alcohol, 220 parts of methanol, 32 parts of sodium hydroxide, 120 parts of acetone, 210 parts of ultra-pure water, benzoyl peroxide first 1.5 parts of acid, 2 parts of 6- tert-butyl-m-cresols, 1.5 parts of polyoxyethylene laurate, 0.8 part of zinc sulfate, trimethylolpropane 0.09 Part, 2 parts of diethylene glycol dibenzoate.

The modified MXD6 latex includes the raw material of following parts by weight proportioning：8 parts of adipic acid, surpasses 5 parts of m-xylene diamine 15 parts of pure water, 0.1 part of disodium hydrogen phosphate, 12 parts of polyethylene glycol.

Another technical problem to be solved by the present invention is that providing a kind of high-barrier PE coated films for liquid food packing Preparation method, include the following steps：

1) preparation of modified PE film

(1) surface residue of PE films is removed：The PE films of 70-80 mass parts are put into the acetone of 20-40 mass parts It is inside stripped 12-18 hours, removes the various additives for remaining on surface in PE membrane-film preparation process, it, will after extracting PE films are placed on 6-8 hours dry in 55 DEG C in vacuum drying chamber, removing acetone；

(2) photoinitiator system one is configured：The third of 8-12 mass parts are added into the absolute ethyl alcohol of 120-180 mass parts Ketone after being uniformly mixed, adds the ultra-pure water of 40-60 mass parts, after being diluted, continues to be uniformly mixed, and is made Acetone-water-ethyl alcohol photoinitiator system solution；

(3) photoinitiator system two is configured：The methyl methacrylate of 10-15 mass parts is added to 30-40 mass parts Ultra-pure water in, be uniformly mixed, methyl methacrylate photoinitiator system solution be made；

(4) it will be placed on the upper surface of first block of quartz glass through the processed first layer PE films of step (1), with drop Pipe takes 3-5ml acetone-waters-ethyl alcohol photoinitiator system solution, equably drops on the surface of first layer PE films, then with drop Pipe takes 6-8ml methyl methacrylate light initiation system solution, equably drops on the surface of first layer PE films, then in light Cause on system solution covering through the processed second layer PE films of step (1), the is covered on the upper surface of second layer PE films Two blocks of quartz glass；

(5) two layers of PE film of step (4) is placed under the ultraviolet lamp tube of 40W/m2 and irradiates 15-30min, cause methyl Methyl acrylate graft reaction；

(6) the PE films after reaction are put into the acetone of 10-15 mass parts and are stripped 3-5 hours, then moved on to true Acetone is dried and removed in empty drying box, obtains the PE films of surface graft modification；

(7) it in the polyethyleneimine liquid to the ultra-pure water of 10-20 mass parts for measuring 10-15 mass parts with pipette, stirs It mixes and obtains polyethylenimine solution after mixing；

(8) polyethylenimine solution is uniformly coated to inside and outside the PE films of surface graft modification on two surfaces, so It is placed in 60 DEG C of vacuum drying chambers dry 12-18h, obtains modified PE films；

2) preparation of modified EVOH latex

(1) trimethylolpropane of the zinc sulfate of 0.5-1 mass parts and 0.08-0.1 mass parts is added to 1-3 mass parts Diethylene glycol dibenzoate in, after being uniformly mixed, temperature be 115-125 DEG C at react 2-3h, be cooled to room temperature, Plasticizer is made；

(2) vinyl acetate of 50-70 mass parts is added in the t-butanol solvent of 100-150 mass parts, is stirred , add the vinyl monomer of 10-25 mass parts, after being uniformly mixed, be subsequently added into 5-10 mass parts sodium hydroxide, The polyoxyethylene moon of the perbenzoic acid of 1-2 mass parts, the 6- tert-butyl-m-cresols of 0.5-3 mass parts, 0.05-2 mass parts Plasticizer obtained in the step of cinnamic acid ester, 10-20 mass parts (1) occurs freely at pressure 4-5MPa, 80-90 DEG C of temperature Vinyl-vinyl acetate copolymer is made in base copolyreaction；

(3) methanol that vinyl-vinyl acetate copolymer obtained in step (2) is added to 180-200 mass parts is molten In agent, the sodium hydroxide alkali catalyst of 20-30 mass parts is added, under nitrogen protection, being heated with stirring in system has first Alcohol steam distillates, and the methanol of 20-40 mass parts is added in reaction process, is uniformly carried out with keeping reacting, reacts 5-6h, be cooled to Room temperature, by the way that at hydroxyl, EVOH copolymers are made in the acetyl group alcoholysis in vinyl-vinyl acetate copolymer；

(4) EVOH copolymers made from the milli-Q water step (3) of 200-220 mass parts are used, the water such as sodium acetate are removed Solubility impurity removes the oil-soluble impurities such as methyl acetate then with 12-14h is extracted in the acetone of 100-150 mass parts,

(5) after extracting, EVOH copolymers are placed in vacuum drying chamber to, removing third 4-5 hours dry in 55 DEG C Ketone is cooled to room temperature, and obtains modified EVOH latex；

3) preparation of modified MXD6 latex

(1) adipic acid of 5-10 mass parts is added into reaction kettle, the ultra-pure water of 5-8 mass parts is subsequently added into, in nitrogen It opens and is stirred under the protection of atmosphere；

(2) m-xylene diamine of 4-6 mass parts is added in the ultra-pure water of 5-8 mass parts, adds 10-15 mass parts Polyethylene glycol, be uniformly mixed, be made mixed solution；

(3) mixed solution in step (2) is slowly added into the reaction kettle of step (1), keeps reaction temperature at 50 DEG C Hereinafter, when reaction temperature no longer changes, reaction terminates, and crystallinity nylon resin is made；

(4) disodium hydrogen phosphate of 0.05-0.1 mass parts is added in the ultra-pure water of 3-5 mass parts, is stirred It is even, acid-base modifier is made；

(5) acid-base modifier in step (4) is added in step (3) in crystallinity nylon resin obtained, adjusts acid Basicity is to 7.0-7.5；

(6) dry 12-14h, obtained modification in 40 DEG C of vacuum drying chambers by crystallinity nylon resin made from step (5) MXD6 latex；

4) modified EVOH latex is uniformly coated on the outer surface of modified PE film with blade applicator, control applies thickness Degree is 7.5-8.0 μm；

5) modified MXD6 latex is uniformly coated on the inner surface of modified PE film with blade applicator, control applies thickness Degree is 8.5-9.0 μm；

6) after being coated with, dry curing 10h, obtains high-barrier PE coated films at 50-60 DEG C.

(3) advantageous effect

Compared with prior art, the present invention provides a kind of high-barrier PE coated films and its system for liquid food packing Preparation Method has following advantageous effect：

1, high-barrier PE coated films, by the way that PE films to be put to the additive in extracting removing preparation process in acetone, Using acetone-water-ethyl alcohol and two kinds of photoinitiator systems of methyl methacrylate under the irradiation of ultraviolet lamp tube, cause methyl-prop E pioic acid methyl ester graft reaction realizes the technique effect that two layers of modified PE film is efficiently bonded, then by polyethyleneimine Solution is uniformly coated on inside and outside two surface of the PE films of surface graft modification, is significantly increased inside and outside modified PE coated film The adhesive property on surface.

2, high-barrier PE coated films are being changed by being coated with modified EVOH latex on the outer surface of modified PE film Property EVOH latex preparation process in by controlling the molar content of vinyl monomer 25% hereinafter, modified EVOH latex is made to have Significantly gas barrier property efficiently reduces oxygen transmission rate, solves the high technical problem of modified PE film oxygen transmission rate.

3, high-barrier PE coated films are modified MXD6 latex by the coating inside surfaces in modified PE film, are changing Property MXD6 latex in be added disodium hydrogen phosphate, adjust the acid-base value of modified MXD6 latex to 7.0-7.5, efficiently control modification The content of hydroxyl in MXD6 latex efficiently reduces the hydrophily and hygroscopicity of modified MXD6 latex, solves modified PE film Barrier property the technical issues of declining with the rising of humidity.

4, the preparation method of high-barrier PE coated films, by preparing modified PE film, modified EVOH latex, modification respectively MXD6 latex is then coated with modified EVOH latex, in the inner surface of modified PE film on the outer surface of modified PE film The modified MXD6 latex of upper coating, the preparation method of high-barrier PE coated films are simple and efficient, and can considerably improve high-barrier PE The production efficiency of coated film.

5, the preparation method of high-barrier PE coated films, by using homogeneous saponification method by ethylene-vinyl acetate c At hydroxyl EVOH copolymers are made, the reaction process of the homogeneous saponification method is easily controllable, consersion unit in acetyl group alcoholysis in object Simply.

Specific implementation mode

Below in conjunction with the embodiment of the present invention, technical solution in the embodiment of the present invention is clearly and completely retouched It states, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based on the present invention In embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

Embodiment one：

(1) the PE films of 70 mass parts are put into the acetone of 20 mass parts and are stripped 12 hours, remove PE film systems The various additives for remaining on surface during standby after extracting, PE films are placed in vacuum drying chamber dry in 55 DEG C Dry 6 hours, remove acetone；

(2) acetone of 8 mass parts is added into the absolute ethyl alcohol of 120 mass parts, after being uniformly mixed, adds 40 matter The ultra-pure water for measuring part, after being diluted, continues to be uniformly mixed, and acetone-water-ethyl alcohol photoinitiator system solution is made；

(3) methyl methacrylate of 10 mass parts is added in the ultra-pure water of 30 mass parts, is uniformly mixed, made Obtain methyl methacrylate photoinitiator system solution；

(4) it will be placed on the upper surface of first block of quartz glass through the processed first layer PE films of step (1), with drop Pipe takes 3ml acetone-waters-ethyl alcohol photoinitiator system solution, equably drops on the surface of first layer PE films, then uses dropper 6-8ml methyl methacrylate light initiation system solution is taken, equably drops on the surface of first layer PE films, then draws in light It sends out covering on system solution and covers second on the upper surface of second layer PE films through step (1) processed second layer PE films Block quartz glass；

(5) two layers of PE film of step (4) is placed on 40W/m²Ultraviolet lamp tube under irradiate 15-30min, cause methyl Methyl acrylate graft reaction；

(6) the PE films after reaction are put into the acetone of 10 mass parts and are stripped 3 hours, then move on to vacuum drying Acetone is dried and removed in case, obtains the PE films of surface graft modification；

(7) it in the polyethyleneimine liquid to the ultra-pure water of 10 mass parts for measuring 10 mass parts with pipette, is stirred Polyethylenimine solution is obtained after uniformly；

(8) polyethylenimine solution is uniformly coated to inside and outside the PE films of surface graft modification on two surfaces, so It is placed in 60 DEG C of vacuum drying chambers dry 12h, obtains modified PE films；

(9) trimethylolpropane of the zinc sulfate of 0.5 mass parts and 0.08 mass parts is added to the diethyl two of 1 mass parts In alcohol dibenzoate, after being uniformly mixed, 2h is reacted at being 115 DEG C in temperature, is cooled to room temperature, plasticizer is made；

(10) vinyl acetate of 50 mass parts is added in the t-butanol solvent of 100 mass parts, is stirred, then The vinyl monomer of 10 mass parts is added, after being uniformly mixed, is subsequently added into the sodium hydroxide of 5 mass parts, the peroxide of 1 mass parts Change the step of benzoic acid, the 6- tert-butyl-m-cresols of 0.5 mass parts, the polyoxyethylene laurate of 0.05 mass parts, 10 mass parts At pressure 4MPa, 80 DEG C of temperature free radicals copolymerization reaction occurs for plasticizer obtained in (9) suddenly, and ethylene-acetate second is made Enoate copolymer；

(11) vinyl-vinyl acetate copolymer obtained in step (10) is added to the methanol solvate of 180 mass parts In, the sodium hydroxide alkali catalyst of 20 mass parts is added, under nitrogen protection, being heated with stirring in system has methanol steam Distillate, the methanol of 20 mass parts added in reaction process, with keep react uniformly carry out, react 5h, be cooled to room temperature, pass through by EVOH copolymers are made at hydroxyl in acetyl group alcoholysis in vinyl-vinyl acetate copolymer；

(12) it is water-soluble to remove sodium acetate etc. for EVOH copolymers made from the milli-Q water step (11) with 200 mass parts Property impurity remove the oil-soluble impurities such as methyl acetate then with 12h is extracted in the acetone of 100 mass parts,

(13) after extracting, EVOH copolymers are placed in vacuum drying chamber to, removing third 4 hours dry in 55 DEG C Ketone is cooled to room temperature, and obtains modified EVOH latex；

(14) adipic acid of 5 mass parts is added into reaction kettle, the ultra-pure water of 5 mass parts is subsequently added into, in nitrogen atmosphere Protection under open be stirred；

(15) m-xylene diamine of 4 mass parts is added in the ultra-pure water of 5 mass parts, adds the poly- second of 10 mass parts Glycol is uniformly mixed, and mixed solution is made；

(16) mixed solution in step (15) is slowly added into the reaction kettle of step (14), keeps reaction temperature 50 DEG C hereinafter, when reaction temperature no longer changes, reaction terminates, and crystallinity nylon resin is made；

(17) disodium hydrogen phosphate of 0.05 mass parts is added in the ultra-pure water of 3 mass parts, is uniformly mixed, is made Acid-base modifier；

(18) acid-base modifier in step (17) is added in step (16) in crystallinity nylon resin obtained, is adjusted Acid-base value is to 7.5；

(19) dry 12h, obtained modification in 40 DEG C of vacuum drying chambers by crystallinity nylon resin made from step (18) MXD6 latex；

(20) modified EVOH latex is uniformly coated on the outer surface of modified PE film with blade applicator, controls coating Thickness is 7.5 μm；

(21) modified MXD6 latex is uniformly coated on the inner surface of modified PE film with blade applicator, controls coating Thickness is 8.5 μm；

(22) after being coated with, dry curing 10h, obtains high-barrier PE coated films at 50 DEG C.

Embodiment two：

(1) the PE films of 75 mass parts are put into the acetone of 30 mass parts and are stripped 15 hours, remove PE film systems The various additives for remaining on surface during standby after extracting, PE films are placed in vacuum drying chamber dry in 55 DEG C Dry 7 hours, remove acetone；

(2) acetone of 10 mass parts is added into the absolute ethyl alcohol of 150 mass parts, after being uniformly mixed, adds 50 The ultra-pure water of mass parts after being diluted, continues to be uniformly mixed, and acetone-water-ethyl alcohol photoinitiator system solution is made；

(3) methyl methacrylate of 12 mass parts is added in the ultra-pure water of 35 mass parts, is uniformly mixed, made Obtain methyl methacrylate photoinitiator system solution；

(4) it will be placed on the upper surface of first block of quartz glass through the processed first layer PE films of step (1), with drop Pipe takes 4ml acetone-waters-ethyl alcohol photoinitiator system solution, equably drops on the surface of first layer PE films, then uses dropper 7ml methyl methacrylate light initiation system solution is taken, is equably dropped on the surface of first layer PE films, then light-initiated Covering covers second piece through step (1) processed second layer PE films on system solution on the upper surface of second layer PE films Quartz glass；

(5) two layers of PE film of step (4) is placed on 40W/m²Ultraviolet lamp tube under irradiate 20min, cause methyl-prop E pioic acid methyl ester graft reaction；

(6) the PE films after reaction are put into the acetone of 10 mass parts and are stripped 4 hours, then move on to vacuum drying Acetone is dried and removed in case, obtains the PE films of surface graft modification；

(7) it in the polyethyleneimine liquid to the ultra-pure water of 15 mass parts for measuring 13 mass parts with pipette, is stirred Polyethylenimine solution is obtained after uniformly；

(8) polyethylenimine solution is uniformly coated to inside and outside the PE films of surface graft modification on two surfaces, so It is placed in 60 DEG C of vacuum drying chambers dry 16h, obtains modified PE films；

(9) trimethylolpropane of the zinc sulfate of 0.8 mass parts and 0.09 mass parts is added to the diethyl two of 2 mass parts In alcohol dibenzoate, after being uniformly mixed, 2.5h is reacted at being 120 DEG C in temperature, is cooled to room temperature, plasticizer is made；

(10) vinyl acetate of 60 mass parts is added in the t-butanol solvent of 120 mass parts, is stirred, then The vinyl monomer of 20 mass parts is added, after being uniformly mixed, is subsequently added into the sodium hydroxide of 8 mass parts, the mistake of 1.5 mass parts The step of aoxidizing benzoic acid, the 6- tert-butyl-m-cresols of 2 mass parts, the polyoxyethylene laurate of 1.5 mass parts, 15 mass parts (9) at pressure 4.5MPa, 85 DEG C of temperature free radicals copolymerization reaction occurs for plasticizer obtained in, and ethylene-acetate second is made Enoate copolymer；

(11) vinyl-vinyl acetate copolymer obtained in step (10) is added to the methanol solvate of 190 mass parts In, the sodium hydroxide alkali catalyst of 25 mass parts is added, under nitrogen protection, being heated with stirring in system has methanol steam It distillates, the methanol of 30 mass parts is added in reaction process, uniformly carried out with keeping reacting, react 5.5h, be cooled to room temperature, pass through By the acetyl group alcoholysis in vinyl-vinyl acetate copolymer at hydroxyl, EVOH copolymers are made；

(12) it is water-soluble to remove sodium acetate etc. for EVOH copolymers made from the milli-Q water step (11) with 210 mass parts Property impurity remove the oil-soluble impurities such as methyl acetate then with 13h is extracted in the acetone of 120 mass parts,

(13) after extracting, EVOH copolymers are placed in vacuum drying chamber to, removing third 4.5 hours dry in 55 DEG C Ketone is cooled to room temperature, and obtains modified EVOH latex；

(14) adipic acid of 8 mass parts is added into reaction kettle, the ultra-pure water of 6 mass parts is subsequently added into, in nitrogen atmosphere Protection under open be stirred；

(15) m-xylene diamine of 5 mass parts is added in the ultra-pure water of 5 mass parts, adds the poly- second of 12 mass parts Glycol is uniformly mixed, and mixed solution is made；

(17) disodium hydrogen phosphate of 0.1 mass parts is added in the ultra-pure water of 4 mass parts, is uniformly mixed, is made Acid-base modifier；

(18) acid-base modifier in step (17) is added in step (16) in crystallinity nylon resin obtained, is adjusted Acid-base value is to 7.0；

(19) dry 13h, obtained modification in 40 DEG C of vacuum drying chambers by crystallinity nylon resin made from step (18) MXD6 latex；

(20) modified EVOH latex is uniformly coated on the outer surface of modified PE film with blade applicator, controls coating Thickness is 7.8 μm；

(21) modified MXD6 latex is uniformly coated on the inner surface of modified PE film with blade applicator, controls coating Thickness is 8.8 μm；

(22) after being coated with, dry curing 10h, obtains high-barrier PE coated films at 55 DEG C.

Embodiment three：

(1) the PE films of 80 mass parts are put into the acetone of 40 mass parts and are stripped 18 hours, remove PE film systems The various additives for remaining on surface during standby after extracting, PE films are placed in vacuum drying chamber dry in 55 DEG C Dry 8 hours, remove acetone；

(2) acetone of 12 mass parts is added into the absolute ethyl alcohol of 180 mass parts, after being uniformly mixed, adds 60 The ultra-pure water of mass parts after being diluted, continues to be uniformly mixed, and acetone-water-ethyl alcohol photoinitiator system solution is made；

(3) methyl methacrylate of 15 mass parts is added in the ultra-pure water of 40 mass parts, is uniformly mixed, made Obtain methyl methacrylate photoinitiator system solution；

(4) it will be placed on the upper surface of first block of quartz glass through the processed first layer PE films of step (1), with drop Pipe takes 5ml acetone-waters-ethyl alcohol photoinitiator system solution, equably drops on the surface of first layer PE films, then uses dropper 8ml methyl methacrylate light initiation system solution is taken, is equably dropped on the surface of first layer PE films, then light-initiated Covering covers second piece through step (1) processed second layer PE films on system solution on the upper surface of second layer PE films Quartz glass；

(5) two layers of PE film of step (4) is placed on 40W/m²Ultraviolet lamp tube under irradiate 30min, cause methyl-prop E pioic acid methyl ester graft reaction；

(6) the PE films after reaction are put into the acetone of 15 mass parts and are stripped 5 hours, then move on to vacuum drying Acetone is dried and removed in case, obtains the PE films of surface graft modification；

(7) it in the polyethyleneimine liquid to the ultra-pure water of 20 mass parts for measuring 15 mass parts with pipette, is stirred Polyethylenimine solution is obtained after uniformly；

(8) polyethylenimine solution is uniformly coated to inside and outside the PE films of surface graft modification on two surfaces, so It is placed in 60 DEG C of vacuum drying chambers dry 18h, obtains modified PE films；

(9) trimethylolpropane of the zinc sulfate of 1 mass parts and 0.1 mass parts is added to the diethylene glycol of 3 mass parts In dibenzoate, after being uniformly mixed, 3h is reacted at being 125 DEG C in temperature, is cooled to room temperature, plasticizer is made；

(10) vinyl acetate of 70 mass parts is added in the t-butanol solvent of 150 mass parts, is stirred, then The vinyl monomer of 25 mass parts is added, after being uniformly mixed, is subsequently added into the sodium hydroxide of 10 mass parts, the mistake of 2 mass parts The step of aoxidizing benzoic acid, the 6- tert-butyl-m-cresols of 3 mass parts, the polyoxyethylene laurate of 2 mass parts, 20 mass parts (9) at pressure 5MPa, 90 DEG C of temperature free radicals copolymerization reaction occurs for plasticizer obtained in, and ethane-acetic acid ethyenyl is made Ester copolymer；

(11) vinyl-vinyl acetate copolymer obtained in step (10) is added to the methanol solvate of 200 mass parts In, the sodium hydroxide alkali catalyst of 30 mass parts is added, under nitrogen protection, being heated with stirring in system has methanol steam Distillate, the methanol of 40 mass parts added in reaction process, with keep react uniformly carry out, react 6h, be cooled to room temperature, pass through by EVOH copolymers are made at hydroxyl in acetyl group alcoholysis in vinyl-vinyl acetate copolymer；

(12) it is water-soluble to remove sodium acetate etc. for EVOH copolymers made from the milli-Q water step (11) with 220 mass parts Property impurity remove the oil-soluble impurities such as methyl acetate then with 14h is extracted in the acetone of 150 mass parts,

(13) after extracting, EVOH copolymers are placed in vacuum drying chamber to, removing third 5 hours dry in 55 DEG C Ketone is cooled to room temperature, and obtains modified EVOH latex；

(14) adipic acid of 10 mass parts is added into reaction kettle, the ultra-pure water of 8 mass parts is subsequently added into, in nitrogen atmosphere Protection under open be stirred；

(15) m-xylene diamine of 6 mass parts is added in the ultra-pure water of 8 mass parts, adds the poly- second of 15 mass parts Glycol is uniformly mixed, and mixed solution is made；

(17) disodium hydrogen phosphate of 0.1 mass parts is added in the ultra-pure water of 5 mass parts, is uniformly mixed, is made Acid-base modifier；

(18) acid-base modifier in step (17) is added in step (16) in crystallinity nylon resin obtained, is adjusted Acid-base value is to 7.2；

(19) dry 14h, obtained modification in 40 DEG C of vacuum drying chambers by crystallinity nylon resin made from step (18) MXD6 latex；

(20) modified EVOH latex is uniformly coated on the outer surface of modified PE film with blade applicator, controls coating Thickness is 8.0 μm；

(21) modified MXD6 latex is uniformly coated on the inner surface of modified PE film with blade applicator, controls coating Thickness is 9.0 μm；

(22) after being coated with, dry curing 10h, obtains high-barrier PE coated films at 60 DEG C.

Experimental example：

High-barrier PE coated films made from embodiment 1, embodiment 2, embodiment 3 is continuous interior for 24 hours at atmosheric pressure, it surveys Oxygen transmission rate is tried, at 100 DEG C of temperature and 90% relative humidity, tests moisture vapor permeable rate, experimental results are shown in Table 1.

Criterion：High barrier material refers to continuous interior for 24 hours at atmosheric pressure, and oxygen transmission rate is less than 0.1ml/mil/ 100in²；At 100 DEG C of temperature and 90% relative humidity, moisture vapor permeable rate is less than or equal to 0.03ml/mil/100in²；

Table 1

	Oxygen transmission rate (ml/mil/100in²)	Moisture vapor permeable rate (ml/mil/100in²)
			Embodiment 1	0.048	0.011
Embodiment 2	0.012	0.009
			Embodiment 3	0.030	0.007

The beneficial effects of the invention are as follows：It can be obtained by table 1, embodiment 1, embodiment 2 and the oxygen transmission rate of embodiment 3 are distinguished For 0.048ml/mil/100in²、0.012ml/mil/100in²With 0.030ml/mil/100in²Respectively less than 0.1ml/mil/ 100in², embodiment 1, embodiment 2 and the moisture vapor permeable rate of embodiment 3 are respectively 0.011ml/mil/100in²、0.009ml/mil/ 100in²With 0.007ml/mil/100in²Respectively less than 0.03ml/mil/100in², therefore, the oxygen transmission rate of high-barrier PE coated films Meet the criterion of high barrier material with two performance indicators of moisture vapor permeable rate.

Typical case：

(17) disodium hydrogen phosphate of 0.08 mass parts is added in the ultra-pure water of 4 mass parts, is uniformly mixed, is made Acid-base modifier；

(22) after being coated with, dry curing 10h, obtains high-barrier PE coated films, high-barrier PE at 55 DEG C Coated film, continuous interior for 24 hours at atmosheric pressure, oxygen transmission rate 0.012ml/mil/100in², in 100 DEG C of temperature and 90% phase To under humidity, moisture vapor permeable rate 0.009ml/mil/100in²。

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims

1. a kind of high-barrier PE coated films for liquid food packing, including modified PE film, which is characterized in that the modification Modified EVOH latex is coated on the outer surface of PE films, the coating inside surfaces of modified PE film have modified MXD6 glue Breast；

The modified PE film includes the raw material of following parts by weight proportioning：70-80 parts of PE films, 30-50 parts of acetone, ultra-pure water 80-120 parts, 120-180 parts of absolute ethyl alcohol, 20-30 parts of methyl methacrylate, 10-15 parts of polyethylenimine solution；

The modified EVOH latex includes the raw material of following parts by weight proportioning：50-70 parts of vinyl acetate, vinyl monomer 10- 25 parts, 100-150 parts of the tert-butyl alcohol, 200-240 parts of methanol, 20-50 parts of sodium hydroxide, 100-150 parts of acetone, ultra-pure water 200- 220 parts, 1-2 parts of perbenzoic acid, 0.5-3 parts of 6- tert-butyl-m-cresols, 0.05-2 parts of polyoxyethylene laurate, zinc sulfate 0.5-1 parts, 0.08-0.1 parts of trimethylolpropane, 1-3 parts of diethylene glycol dibenzoate；

The modified MXD6 latex includes the raw material of following parts by weight proportioning：5-10 parts of adipic acid, 4-6 parts of m-xylene diamine, 10-15 parts of ultra-pure water, 0.05-0.1 parts of disodium hydrogen phosphate, 10-15 parts of polyethylene glycol；

The thickness of the modified PE film is 40-80 μm, the modification EVOH latex being coated on the outer surface of modified PE film Thickness is 7.5-8.0 μm, and the thickness of the modification MXD6 latex of the coating inside surfaces of modified PE film is 8.5-9.0 μm；

The density of the high-barrier PE coated films is 1.96-2.16g/cm, fusing point is 175-193 DEG C, tensile break strength is 115-152MPa, elongation at break >=169%.

2. a kind of high-barrier PE coated films for liquid food packing according to claim 1, which is characterized in that described The thickness of modified PE film is 65 μm, and the thickness for the modification EVOH latex being coated on the outer surface of modified PE film is 8.0 μm, The thickness of the modification MXD6 latex of the coating inside surfaces of modified PE film is 8.5 μm.

3. a kind of high-barrier PE coated films for liquid food packing according to claim 1, which is characterized in that described Modified PE film includes the raw material of following parts by weight proportioning：75 parts of PE films, 50 parts of acetone, 100 parts of ultra-pure water, absolute ethyl alcohol 150 parts, 12 parts of methyl methacrylate, 13 parts of polyethylenimine solution.

4. a kind of high-barrier PE coated films for liquid food packing according to claim 1, which is characterized in that described Modified EVOH latex includes the raw material of following parts by weight proportioning：60 parts of vinyl acetate, 20 parts of vinyl monomer, the tert-butyl alcohol 120 Part, between 220 parts of methanol, 32 parts of sodium hydroxide, 120 parts of acetone, 210 parts of ultra-pure water, 1.5 parts of perbenzoic acid, 6- tertiary butyls 2 parts of cresols, 1.5 parts of polyoxyethylene laurate, 0.8 part of zinc sulfate, 0.09 part of trimethylolpropane, diethylene glycol dibenzoic acid 2 parts of ester.

5. a kind of high-barrier PE coated films for liquid food packing according to claim 1, which is characterized in that described Modified MXD6 latex includes the raw material of following parts by weight proportioning：8 parts of adipic acid, 5 parts of m-xylene diamine, 15 parts of ultra-pure water, phosphorus 0.1 part of sour disodium hydrogen, 12 parts of polyethylene glycol.

6. a kind of preparation method of high-barrier PE coated films for liquid food packing, which is characterized in that include the following steps：

1) preparation of modified PE film

(1) surface residue of PE films is removed：By the PE films of 70-80 mass parts be put into the acetone of 20-40 mass parts into Row extracting 12-18 hours removes the various additives for remaining on surface in PE membrane-film preparation process, after extracting, PE is thin Film is placed on 6-8 hours dry in 55 DEG C in vacuum drying chamber, removing acetone；

(2) photoinitiator system one is configured：The acetone of 8-12 mass parts is added into the absolute ethyl alcohol of 120-180 mass parts, stirs The ultra-pure water for adding 40-60 mass parts after mixing is mixed, after being diluted, continues to be uniformly mixed, acetone-is made Water-ethanol photoinitiator system solution；

(3) photoinitiator system two is configured：The methyl methacrylate of 10-15 mass parts is added to the super of 30-40 mass parts It in pure water, is uniformly mixed, methyl methacrylate photoinitiator system solution is made；

(4) it will be placed on the upper surface of first block of quartz glass through the processed first layer PE films of step (1), be taken with dropper 3-5ml acetone-waters-ethyl alcohol photoinitiator system solution, equably drop on the surface of first layer PE films, are then taken with dropper 6-8ml methyl methacrylate light initiation system solution, equably drops on the surface of first layer PE films, then light-initiated Covering covers second piece through step (1) processed second layer PE films on system solution on the upper surface of second layer PE films Quartz glass；

(5) two layers of PE film of step (4) is placed on 40W/m²Ultraviolet lamp tube under irradiate 15-30min, cause metering system Sour methyl esters graft reaction；

(6) the PE films after reaction are put into the acetone of 10-15 mass parts and are stripped 3-5 hours, it is dry then to move on to vacuum Acetone is dried and removed in dry case, obtains the PE films of surface graft modification；

(7) in the polyethyleneimine liquid to the ultra-pure water of 10-20 mass parts for measuring 10-15 mass parts with pipette, stirring is mixed Polyethylenimine solution is obtained after closing uniformly；

(8) polyethylenimine solution is uniformly coated to inside and outside the PE films of surface graft modification on two surfaces, is then set Dry 12-18h, obtains modified PE films in 60 DEG C of vacuum drying chambers；

2) preparation of modified EVOH latex

(1) trimethylolpropane of the zinc sulfate of 0.5-1 mass parts and 0.08-0.1 mass parts is added to the two of 1-3 mass parts In ethylene glycol dibenzoate, after being uniformly mixed, 2-3h is reacted at being 115-125 DEG C in temperature, is cooled to room temperature, is made Plasticizer；

(2) vinyl acetate of 50-70 mass parts is added in the t-butanol solvent of 100-150 mass parts, is stirred, The vinyl monomer for adding 10-25 mass parts after being uniformly mixed, is subsequently added into sodium hydroxide, the 1-2 matter of 5-10 mass parts Measure the polyoxyethylene laural acid of the perbenzoic acid of part, the 6- tert-butyl-m-cresols of 0.5-3 mass parts, 0.05-2 mass parts At pressure 4-5MPa, 80-90 DEG C of temperature free radical occurs for plasticizer obtained in the step of ester, 10-20 mass parts (1) total Poly- reaction, is made vinyl-vinyl acetate copolymer；

(3) vinyl-vinyl acetate copolymer obtained in step (2) is added in the methanol solvate of 180-200 mass parts, The sodium hydroxide alkali catalyst of 20-30 mass parts is added, under nitrogen protection, being heated with stirring in system has methanol steam It distillates, the methanol of 20-40 mass parts is added in reaction process, uniformly carried out with keeping reacting, react 5-6h, be cooled to room temperature, By the way that at hydroxyl, EVOH copolymers are made in the acetyl group alcoholysis in vinyl-vinyl acetate copolymer；

(4) EVOH copolymers made from the milli-Q water step (3) of 200-220 mass parts are used, the water solubilitys such as sodium acetate are removed Impurity removes the oil-soluble impurities such as methyl acetate then with 12-14h is extracted in the acetone of 100-150 mass parts,

(5) after extracting, EVOH copolymers are placed in vacuum drying chamber to, removing acetone 4-5 hours dry in 55 DEG C, it is cold But to room temperature, modified EVOH latex is obtained；

3) preparation of modified MXD6 latex

(1) adipic acid of 5-10 mass parts is added into reaction kettle, the ultra-pure water of 5-8 mass parts is subsequently added into, in nitrogen atmosphere Protection under open be stirred；

(2) m-xylene diamine of 4-6 mass parts is added in the ultra-pure water of 5-8 mass parts, adds the poly- of 10-15 mass parts Ethylene glycol is uniformly mixed, and mixed solution is made；

(3) mixed solution in step (2) is slowly added into the reaction kettle of step (1), keep reaction temperature at 50 DEG C hereinafter, When reaction temperature no longer changes, reaction terminates, and crystallinity nylon resin is made；

(4) disodium hydrogen phosphate of 0.05-0.1 mass parts is added in the ultra-pure water of 3-5 mass parts, is uniformly mixed, made Obtain acid-base modifier；

(5) acid-base modifier in step (4) is added in step (3) in crystallinity nylon resin obtained, adjusts acid-base value To 7.0-7.5；

(6) crystallinity nylon resin made from step (5) is dried to 12-14h in 40 DEG C of vacuum drying chambers, modified MXD6 is made Latex；

4) modified EVOH latex is uniformly coated on the outer surface of modified PE film with blade applicator, control coating layer thickness is 7.5-8.0μm；

5) modified MXD6 latex is uniformly coated on the inner surface of modified PE film with blade applicator, control coating layer thickness is 8.5-9.0μm；