CN106752899A - A kind of extrusion coating paper and composite plastic film packaging material preparation method with double-hydrophobic surface - Google Patents

Abstract

A kind of extrusion coating paper and composite plastic film packaging material preparation method with double-hydrophobic surface, a diameter of 0.01 to 50 micron of bead prepares coating fluid in being dispersed in liquid adhesive, in one layer of a diameter of 0.01-50 microns bead of paper and plastic film even spread, after solidification, bead is attached to paper or plastic film, forms micro-nano rough surface structure；Machine silicones or fluorine resin solution are coated with bead layer surface, the layer of the low-surface-energy that thickness is 30 to 500nm is formed after heat or photocuring, protect the micro-nano coarse structure for being formed.After placing 7-10 days；The low-surface-energy face of extrusion coating paper and composite plastic film has double thin performances：Water contact angle is more than 140 °, and water roll angle is less than 10 °；Oily contact angle is more than 130 °, and oily roll angle is less than 10 °.Extrusion coating paper or composite plastic film are used as liquid or pasty masses packaging material, liquid and the packaged material of paste are easy to take out from the package, packaged liquid or paste is little in double-hydrophobic surface layer adhesion amount.

Description

A kind of extrusion coating paper and composite plastic film packaging material preparation method with double-hydrophobic surface

Technical field

The present invention relates to a kind of extrusion coating paper with double-hydrophobic surface and composite plastic film packaging material preparation method, Belong to packaging material field.

Background technology

Surface wettability is a key character of solid material surface, generally characterizes liquid pair with contact angle The wetness degree of solid, the surface of solids is referred to as hydrophobic surface when being more than 90 ° with the contact angle of water, more than 150 ° When be referred to as super hydrophobic surface.The surface of solids is referred to as oleophobic surface when being more than 90 ° with the contact angle of oil, more than 150 ° When be referred to as superoleophobic surface.Double-hydrophobic surface refers to be both greater than 90 ° of surface, double thin tables with the contact angle of water and oil Face has the advantages that waterproof, antifog, snow defence, anti-pollution, resist blocking and that, anti-oxidant, anticorrosion, can be extensive The fields such as agricultural, military project, building, traffic, weaving, medical treatment, anti-corrosion and daily life are applied to, therefore Extensive research is obtained, many technology preparation methods have been proposed to double-hydrophobic surface and super-double-hydrophobic surface, however, Majority technology is not suitable for preparation of large area double-hydrophobic surface etc. all in the presence of too high to equipment and technological requirement at present Problem, limits the industrial applications of double-hydrophobic surface.

Present patent application proposes that one kind, by being coated with bead, then has low surface in bead layer surface applying implenent again The organic siliconresin of energy or the method for fluorine resin protect the micro-nano surface coarse structure to be formed, and solve big Area preparation of industrialization and the endurance issues of double hydrophobic surfaces.The extrusion coating paper that is obtained with present patent application and multiple Close plastic foil and do not reach super-hydrophobic and superoleophobic performance standard, but water contact angle and oily contact angle are close super double Thin performance, as packages for liquid or during pasty masses, liquid and the packaged material of paste are on double thin faces Adhesion does not almost have, adhesive capacity very little.

The content of the invention

Present patent application proposes a kind of extrusion coating paper and composite plastic film packaging material preparation side with double-hydrophobic surface Method, specific step：

Step one, a diameter of 0.01-50 microns bead is dispersed in liquid adhesive and prepares coating fluid, In one layer of a diameter of 0.01-50 microns bead of paper and plastic film even spread, by after dry solidification, Bead is attached to paper or plastic film, forms micro-nano coarse structure surface；

Step 2, has the organic siliconresin or fluorine resin solution of low-surface-energy in bead layer surface applying implenent, The low-surface-energy film layer that thickness is 30 to 500nm is formed after heat or photocuring, it is micro-nano coarse that protection is formed Structure；

Step 3, the extrusion coating paper or composite plastic film that will be prepared is placed 7-10 days, relaxed stress；

Step 4, the extrusion coating paper or composite plastic film that will be prepared is used as liquid or pasty masses packaging material, Liquid and the packaged material of paste are easy to take out from the package, and packaged liquid or pasty masses is dredged double Superficial layer adhesion amount is little.

Fig. 1 is the structural representation of the extrusion coating paper that present patent application is proposed and composite plastic film packaging material, and 1 is Common paper and plastic foil, referred to as substrate layer；2 is the glue-line of adhesion bead after coating fluid solidification；3 is after solidifying GL is formed, surface has micro-nano coarse structure；4 is the low-surface-energy layer that coating is formed, the low surface Ergosphere thickness is uniform, and after coating low-surface-energy layer, extrusion coating paper or composite plastic film surface still keep original bead The micro-nano coarse structure for being formed.

Fig. 2 is that bead is illustrated in the representative distribution of paper or plastic film substrate surface in present patent application One of figure, the stereoscan photograph on extrusion coating paper or composite plastic film surface.5 is the intensive heap of bead of coating.It is small Ball is intensive to pile up substrate surface random distribution, the intensive heap of bead and spacing 30-200 microns between pushing away.

Fig. 3 is that bead is illustrated in the representative distribution of paper or plastic film substrate surface in present patent application One of figure, the stereoscan photograph on extrusion coating paper or composite plastic film surface.6 is the bead of coating.Bead is in base Material surface is uniformly distributed, and covers whole base material.

Fig. 4 is that bead is illustrated in the representative distribution of paper or plastic film substrate surface in present patent application One of figure, the stereoscan photograph on extrusion coating paper or composite plastic film surface.7 is the bead of coating.Employ big Small different bead, bead covers whole base material.

Fig. 5 is that nano-size silica bead has in paper or plastic film substrate surface in present patent application The stereoscan photograph on one of representational distribution schematic diagram, extrusion coating paper or composite plastic film surface, 8 is coating Bead.Bead covers whole base material.

In paper and one layer of a diameter of 0.01-50 microns bead of plastic film even spread, bead material It is polymethyl methacrylate or polystyrene or glass or silica or titanium dioxide or zinc oxide or carbonic acid Calcium or aluminum oxide.

There are the organic siliconresin or fluorine resin solution of low-surface-energy, shape after solidification in bead layer surface applying implenent Into the low-surface-energy film layer that thickness is 30 to 500nm, the micro-nano coarse structure that protection bead is formed is not easy It is destroyed, and further increase the durability of surface hydrophobicity oleophobic performance.And, low-surface-energy film layer Extrusion coating paper and composite plastic film are further increased to oxygen and the barrier of water vapour.

The material of paper includes art paper, brown paper and various paperboards, cardboard；The material of plastic foil includes poly- It is ethene, polyvinyl chloride, polypropylene, polyvinyl alcohol, polystyrene, plastic of poly vinyl acetate, poly- to benzene Naphthalate, polyamide, polytetrafluoroethylene (PTFE), makrolon.

The coarse structure and the organosilicon or fluorine resin on surface formed by the bead of micron or nano-scale Low-surface-energy layer, realizes that extrusion coating paper and the low-surface-energy face of composite plastic film have double thin performances.Water contact angle More than 140 °, water roll angle is less than 10 °；Oily contact angle test is carried out with hexadecane, contact angle is more than 130 °, Oily roll angle is less than 10 °.

Will prepare extrusion coating paper or composite plastic film be used as liquid or pasty masses packaging material, liquid and The packaged material of paste is easy to take out from the package, the liquid or paste quilt of the attachment of packaging material double-hydrophobic surface The amount of packing material is little.

The method is coated with one layer of bead and forms micro-nano thick using coating method in paper or common plasticses film surface Rough structure, then prepares the micro-nano coarse knot that layered low-surface energy film protection bead is formed in bead layer surface Structure, overcomes complex process prepared by conventional double-hydrophobic surface, and high cost is difficult to the defect of industrialized mass production And surface micronano structure is more easily damaged and causes what double-thinning property can not persistently keep in use Its packaging material for being used as liquid or pasty masses is overcome conventional package material surface adhesion by applied defect Excessive packaged liquid or the defect of pasty masses.

Brief description of the drawings

Fig. 1 is the structural representation of the extrusion coating paper that present patent application is proposed and compound film packing material, 1 in figure It is substrate layer, 2 is the glue-line of adhesion bead after coating fluid solidification, and 3 is to form GL after solidifying, and 4 is low Surface energy layer.

Fig. 2 is that bead is illustrated in the representative distribution of paper or plastic film substrate surface in present patent application One of figure, the stereoscan photograph on extrusion coating paper or composite plastic film surface, 5 is that the bead being coated with is intensive in figure Heap.

Fig. 3 is that bead is illustrated in the representative distribution of paper or plastic film substrate surface in present patent application One of figure, the stereoscan photograph on extrusion coating paper or composite plastic film surface, 6 is the bead of coating.

Fig. 4 is that bead is illustrated in the representative distribution of paper or plastic film substrate surface in present patent application One of figure, the stereoscan photograph on extrusion coating paper or composite plastic film surface, 7 is the bead of coating.

Fig. 5 is that nano-size silica bead has in paper or plastic film substrate surface in present patent application The stereoscan photograph on one of representational distribution schematic diagram, extrusion coating paper or composite plastic film surface, 8 is coating Bead.

Specific embodiment

With specific embodiment, the present invention will be further described below.

Embodiment 1

With reel-to-reel mode one layer of a diameter of 10-30 microns poly-methyl methacrylate is coated with brown paper surface Ester microsphere, microballoon is close with Fig. 2 in the distribution of paper surface, after solidification, is coated with the surface of GL Method is coated with one layer with the coating fluid that dimethyl silicone polymer is main composition, at 120 DEG C, solidifies within 30 seconds, The low-surface-energy layer that thickness is about 200nm or so is formed, after room temperature is placed 7 days, the low surface of test compound paper 143 ° of the water contact angle on energy surface, water roll angle is 4 °.It is 140 ° with hexadecane test oil contact angle, Oily roll angle is 6 °.In the paper printing figure message of extrusion coating paper, bag is then cut, the bag as Chinese medicine ointment Pack, the sticky Chinese medicine ointment of double thin layer contact of extrusion coating paper, during using Chinese medicine ointment, after taking out ointment, bag Double thin layers hardly adhere to packaged sticky Chinese medicine ointment in pack.

Embodiment 2

It is a diameter of 10-30 microns in one layer of the polyvinyl alcohol film surfaces coating of 12 microns of thickness with reel-to-reel mode Glass microsphere, distribution of the microballoon on polyvinyl alcohol film surface be close with Fig. 3, after solidification, in GL Surface with coating method be coated with one layer with hydroxyl-terminated injecting two methyl siloxane, tetraethyl orthosilicate and hydrogeneous poly- first Radical siloxane is the emulsion of main composition, at 120 DEG C, is solidified within 60 seconds, forms thickness and is about 300nm or so Low-surface-energy layer, room temperature place 7 days after, 155 ° of the water contact angle of test compound film lower-surface-free-energy surface, Water roll angle is 4 °.It it is 135 ° with hexadecane test oil contact angle, oily roll angle is 8 °.In composite membrane Plastic cover printing figure message, then cuts bag, the packaging bag as milk, the double thin face contact ox of composite membrane Milk, milk is drunk after finishing, and double thin faces hardly adhere to packaged milk in packaging bag.

Embodiment 3

With reel-to-reel mode the polypropylene film surfaces of 12 microns of thickness be coated with one layer it is a diameter of 10-30 microns Poly (methyl methacrylate) micro-sphere, distribution of the microballoon on polypropylene film surface is close with Fig. 4, after solidification, One layer is coated with the surface of GL with coating method to gather with the dimethyl silicone polymer containing coloured glaze base, terminal hydroxy group Based on dimethyl siloxane and gamma-methyl allyl acyloxypropyl trimethoxysilane, light trigger, reactive diluent The coating fluid to be constituted, solidifies under ultraviolet lighting, forms the low-surface-energy layer that thickness is about 80nm or so, After room temperature is placed 10 days, 151 ° of the water contact angle of test compound film lower-surface-free-energy surface, water roll angle is 4 °. It it is 146 ° with hexadecane test oil contact angle, oily roll angle is 6 °.In the plastic cover printing figure message of composite membrane, Then bag is cut, the packaging epiphragma as Yoghourt, the low-surface-energy layer contact Yoghourt of composite plastic film tears The epiphragma of equipment for prepn. of yoghurt is opened, low-surface-energy layer surface hardly adheres to packaged Yoghourt in Yoghourt cup cover film.

Embodiment 4

With reel-to-reel mode the polyethylene film surfaces of 12 microns of thickness be coated with one layer it is a diameter of 10-30 microns Poly (methyl methacrylate) micro-sphere, distribution of the microballoon on polyethylene film surface is close with Fig. 2, after solidification, One layer is coated with the surface of GL with coating method to gather so that fluorinated acrylate, trifluoro propyl and alkenyl are modified Dimethyl siloxane, the coating fluid that the polymethyl hydrogen siloxane of methoxy silane end-blocking is main composition, 120 DEG C, solidify within 60 seconds, form the low-surface-energy layer that thickness is about 250nm or so, after room temperature is placed 10 days, 148 ° of the water contact angle of test compound film lower-surface-free-energy surface, water roll angle is 8 °.Use hexadecane test oil Contact angle is 142 °, and oily roll angle is 5 °.In the plastic cover printing figure message of composite membrane, bag is then cut, Packaging bag as fruit juice, the low-surface-energy layer contact fruit juice of composite plastic film, after drinking fruit juice, packaging bag Interior double thin layer surfaces hardly adhere to packaged fruit juice.

Embodiment 5

It is a diameter of in one layer of the plastic of poly vinyl acetate film surfaces coating of 12 microns of thickness with reel-to-reel mode 10-30 nanometers of silicon dioxide microsphere, distribution and Fig. 5 phase of the microballoon in plastic of poly vinyl acetate film surface Closely, after solidification, one layer is coated with ethenyl blocking polydimethylsiloxanes with coating method on the surface of GL Alkane, polymethyl hydrogen siloxane, 1,3- divinyl tetramethyl disiloxanes are the coating fluid of main composition, 120 DEG C, solidify within 60 seconds, form the low-surface-energy layer that thickness is about 150nm or so, after room temperature is placed 10 days, 154 ° of the water contact angle of test compound film lower-surface-free-energy surface, water roll angle is 6 °.Use hexadecane test oil Contact angle is 142 °, and oily roll angle is 5 °.In the plastic cover printing figure message of composite membrane, bag is then cut, Packaging epiphragma as Yoghourt, the low-surface-energy layer contact Yoghourt of composite membrane, tears the epiphragma of equipment for prepn. of yoghurt, acid Low-surface-energy layer hardly adheres to packaged Yoghourt in milk cup cover film.

In summary embodiment, the application proposes to be coated with one layer of bead on paper and plastic basis material, constructs Surface micro-nano coarse structure, then prepares layered low-surface energy layer in bead layer surface, and protection surface micro-nano is thick Rough structure, improves the durability of the double thin performances in surface, while being easy to industrial mass production.Implement above Example is merely to illustrate and the technical scheme of unrestricted present patent application, it will be understood by those skilled in the art that right The technical scheme of present patent application carries out various variations and equivalence replacement, such as change material, by ball shaped nano Sized silica SiClx is replaced with titanium dioxide, aluminum oxide, Zinc oxide powder, without departing from present patent application The principle and scope of technical scheme, all should cover among the scope of present patent application claim.

Claims (6)

1. a kind of extrusion coating paper and composite plastic film packaging material preparation method with double-hydrophobic surface, comprise the steps of：

Step one, a diameter of 0.01-50 microns bead is dispersed in liquid adhesive and prepares coating fluid, In one layer of a diameter of 0.01-50 microns bead of paper and plastic film even spread, by after dry solidification, Bead is attached to paper or plastic film, forms micro-nano coarse structure surface；

Step 2, has the organic siliconresin or fluorine resin solution of low-surface-energy in bead layer surface applying implenent, The film layer of the low-surface-energy that thickness is 30 to 500nm is formed after heat or photocuring, it is micro-nano thick that protection is formed Rough structure；

Step 3, the extrusion coating paper or composite plastic film that will be prepared is placed 7-10 days, relaxed stress；

Step 4, the extrusion coating paper or composite plastic film that will be prepared is used as liquid or pasty masses packaging material, Liquid and the packaged material of paste are easy to take out from the package, and packaged liquid or pasty masses is dredged double Superficial layer adhesion amount is little.

2. a kind of extrusion coating paper and composite plastic film packaging material system with double-hydrophobic surface according to claim 1 Preparation Method, it is characterised in that a diameter of 0.01-50 microns in one layer of paper and plastic film even spread Bead, bead material is polymethyl methacrylate or polystyrene or glass or silica or titanium dioxide Or zinc oxide or calcium carbonate or aluminum oxide.

3. a kind of extrusion coating paper and composite plastic film packaging material system with double-hydrophobic surface according to claim 1 Preparation Method, it is characterised in that have the organic siliconresin of low-surface-energy or fluorine-containing tree in bead layer surface applying implenent Lipoprotein solution, forms the film layer of the low-surface-energy that thickness is 30 to 500nm, in film surface after heat or photocuring Still there is micro-nano coarse structure, the film layer of low-surface-energy protects the small layers of balls coarse structure to be formed not It is more easily damaged, so as to improve the durability of the double thin performances in surface；And, low-surface-energy film layer is further Improve extrusion coating paper and composite plastic film to oxygen and the barrier of water vapour.

4. a kind of extrusion coating paper and composite plastic film packaging material system with double-hydrophobic surface according to claim 1 Preparation Method, it is characterised in that the material of paper includes art paper, brown paper and various paperboards, cardboard；Modeling Expecting the material of film includes polyethylene, polyvinyl chloride, polypropylene, polyvinyl alcohol, polystyrene, polyethylene vinegar Vinyl acetate, polyethylene terephthalate, polyamide, polytetrafluoroethylene (PTFE), makrolon.

5. a kind of extrusion coating paper and composite plastic film packaging material system with double-hydrophobic surface according to claim 1 Preparation Method, it is characterised in that the coarse structure that is formed by the bead of micron or nano-scale and surface Organosilicon or fluorine resin low-surface-energy layer, realize extrusion coating paper and composite plastic film low-surface-energy face have it is double Dredge performance；Water contact angle is more than 140 °, and water roll angle is less than 10 °；Oily contact angle test is carried out with hexadecane, Contact angle is more than 130 °, and oily roll angle is less than 10 °.

6. a kind of extrusion coating paper and composite plastic film packaging material system with double-hydrophobic surface according to claim 1 Preparation Method, it is characterised in that the extrusion coating paper or composite plastic film that will be prepared are used as liquid or pasty masses The packaged material of packaging material, liquid and paste is easy to take out from the package, and packaging material double-hydrophobic surface is attached The amount of the packaged material of liquid or paste is little.