CN110228246A - A kind of biology base controlled degradation barrier novel package film - Google Patents

Abstract

The invention belongs to biology base degradation technique fields more particularly to a kind of biology base controlled degradation to obstruct novel package film, including surface layer, middle layer, internal layer；The surface layer includes surface layer resin layer, surface layer additive layer, and the surface layer resin layer is oxygen-containing polymeric material controlled degradation (JHSZ) resin, and the surface layer additive layer is oxygen-containing polyolefin controlled degradation (HYZJ) additive；The middle layer includes middle layer resin layer, middle layer additive layer, the middle layer additive layer is located at the lower section of middle layer resin layer, the middle layer resin layer is modification biological base polyolefin adhesion (SHQ-MTIE) resin, and the middle layer additive layer is oxidative biological controlled degradation (YHZJ) additive；The internal layer includes inner layer resin layer, internal layer additive layer, the internal layer additive layer is located at the lower section of inner layer resin layer, the inner layer resin layer is modification biological base polyester binding (SHQ-GTIE) resin, and the internal layer additive layer is PVA biology base controlled degradation (PVZJ) additive.

Description

A kind of biology base controlled degradation barrier novel package film

Technical field

The invention belongs to biology base degradation technique fields more particularly to a kind of biology base controlled degradation to obstruct novel package Film.

Background technique

With economic rapid development, people get worse the destruction of environment, especially nondegradable plastics, by people Arbitrarily throw out without care after, due to being not easy to be deposited in soil for a long time by soil microbial degradation, caused to ecological environment serious Pollution.Disposable tableware, Phthalates and agricultural mulching etc. are difficult to be recycled, traditional processing method with Based on burning and burying.Burning can generate a large amount of pernicious gas, pollute environment；It buries in the then polymer short time therein not It can be decomposed by the microorganisms, also pollute environment.The plastic foil of residual abandoning is present in soil, hinders the development of crop root system and to water Divide, the absorption of nutrient, reduces the gas permeability of soil, lead to crop production reduction；After movement eats the plastic foil of residual abandoning, it will cause intestines Obstruction and it is dead；The synthetic netting and fishline being lost in ocean or discard in ocean cause phase to marine organisms When harm, therefore advocate green consumption with reinforcement environmental protection it is imperative.

In order to reduce white pollution, preserving the ecological environment, people start to study degredation plastic, and the of research Generation degradative plastics is degradation plastic, and this degradation plastic is added to dropping for sub-fraction on the basis of original raw material It solves masterbatch or starch-based initial material, major part is not can be carried out degradation, be also unfavorable for the recycling and reconstruction of plastics；The of research Two generation degradative plastics are biology base controllable full-degradable plastics, and using resourceful, reproducible biomass as raw material, degradation process is green Color, cleaning also help the benign cycle in building soil and environmental system, are to alleviate oil crisis, eliminate having for white pollution Effect approach.

Currently, the biology base controlled degradation barrier novel package membrane structure of practical application is simple, degrades not thorough enough, implement It is ineffective.

Summary of the invention

The present invention provides a kind of biology base controlled degradation barrier novel package film, mentioned above in the background art to solve Structure is simple, not thorough enough problem of degrading.

Technical problem solved by the invention is realized using following technical scheme:

A kind of biology base controlled degradation barrier novel package film, including surface layer, middle layer, internal layer；

The surface layer includes surface layer resin layer, surface layer additive layer, and the surface layer additive layer is located at the lower section of surface layer resin layer, The surface layer resin layer is oxygen-containing polymeric material controlled degradation (JHSZ) resin, and the surface layer additive layer is that oxygen-containing polyolefin can Control degradation (HYZJ) additive；

The middle layer includes middle layer resin layer, middle layer additive layer, and the middle layer additive layer is located at the lower section of middle layer resin layer, The middle layer resin layer is modification biological base polyolefin adhesion (SHQ-MTIE) resin, and the middle layer additive layer is oxidative biological Controlled degradation (YHZJ) additive；

The internal layer includes inner layer resin layer, internal layer additive layer, and the internal layer additive layer is located at the lower section of inner layer resin layer, The inner layer resin layer is modification biological base polyester binding (SHQ-GTIE) resin, and the internal layer additive layer is PVA biology base Controlled degradation (PVZJ) additive.

The percentage thickness on the surface layer is 15%, and the percentage thickness in the middle layer is 70%, the thickness hundred of the internal layer Divide than being 15%.

The percentage thickness of the surface layer resin layer is 85%, the percentage thickness of surface layer additive layer is 15%.

The percentage thickness of the middle layer resin layer is 90%, the percentage thickness of middle layer additive layer is 10%.

The percentage thickness of the inner layer resin layer is 95%, the percentage thickness of internal layer additive layer is 5%.

Oxygen-containing polyolefin controlled degradation (HYZJ) additive, oxidative biological controlled degradation (YHZJ) additive, PVA are raw Object base controlled degradation (PVZJ) additive is equal are as follows: aminodithioformic acid cobalt.

The invention has the benefit that

The packaging film made of the technical program, can be realized degradable, and implementation result is ideal,

Its specific ingredient effect is as follows:

1 oxygen-containing polymeric material controlled degradation (JHSZ) resin: being added degradation modification resin in degradative plastics process of producing product, So that all kinds of non-degradable plastic products is become controllable degradable plastic products, uses the degradative plastics system of degradation modification resin Product are when being exposed in sunlight, high temperature or external force, it will degradation, and degradation time and speed are controllable.Triple controllable drops Resin is solved in degradative plastics production process, the degradative resin of opposed polarity is utilized by spy using multi-layer co-extruded moulding process Compost Biodegradation and oxidative biodegradation, are effectively combined together by different technique co-extrusion working chamber, really realize that degradation can Control property and degradable property.Triple controlled degradation non-toxics, comestible contact, processability is strong, can be with most of material phase Hold, controlled degradation controls degradation time according to necessary requirement, and 100% environmental degradability is fully converted to water, carbon dioxide And organic matter, it will not be harmful to environment or soil, cost performance is high, and compared with other degradation techniques, cost is relatively low.It is triple controllable Degradative resin is mainly used for refuse disposal system, packing business, agricultural, compost and plastics manufacturing industry, is suitable for making all kinds of degradations Plastic products, such as farm-oriented mulch, drip irrigation zone, shopping bag, plastic bag, refuse bag, courier bag, mess-tin.

2 modification biological base polyolefin adhesion (SHQ-MTIE) resins: biology base polyolefin bonding resin have hydrophilic group and Two kinds of functional groups of hydrophobic group, by modification, Graft Polyolefin maleic anhydride is acidified it, lowers crystallinity, with other drops Solution resin has affinity and adhesive force.Modification biological base polyolefin bonding resin is a kind of high molecular polymer, and appearance is white Or yellowish graininess or pulverulent solids, it is nontoxic, tasteless, pollution-free, it is a kind of water-soluble resin, there is preferable chemistry Stability has many characteristics, such as caking property.Modification biological base polyolefin bonding resin has two kinds of groups of hydrophilic group and hydrophobic group, makes It can bond with petroleum base resin and bond with bio-based resin, and compatibility is good.Modification biological Ji Juxitingnianheshu Rouge is mainly used for the bonding of bio-based resin polyolefins or the bonding of petroleum base resin polyolefin.

3 modification biological base polyester binding (SHQ-GTIE) resins: biology base polyester binder resin is carried using special resin Body, special auxiliary agent are medium, by modification, bond with biology base polyester resin co-extrusion, can also bond with polyolefin resin co-extrusion. Modification biological base polyester binder resin is a kind of high molecular polymer, and appearance is yellow-white granular solids, nontoxic, tasteless, nothing Pollution, is a kind of degradable resin, has preferable chemical stability, has many characteristics, such as cementability.Modification biological base polyester is viscous Resin has two kinds of groups of hydrophilic group and hydrophobic group, makes it that can bond with petroleum base resin and glue with bio-based resin It closes, compatibility is good.Modification biological base polyester binder resin is mainly used for bonding or the petroleum base of bio-based resin polyolefins The bonding of resins polyolefins class.

4 are added degradant additive by proportion in material modification production process, and various modified resins is made to become controllably dropping The modified resin raw material of solution, is added degradant additive in degradation products production process, becomes all kinds of non-degradable plastic products Controllable completely degradable plastic product；Degradant additive is added in resin in plastic product production process, and without changing life Equipment and program are produced, the degradative plastics product of degradant additive is added to, when being exposed in sunlight, high temperature or external force, It will degrade, and degradation time and speed are controllable；Degradant additive is non-toxic, and comestible contact, processability is strong, can be with big portion Point material compatible, controlled degradation control degradation time according to necessary requirement, 100% environmental degradability, be fully converted to water, Carbon dioxide and organic matter, will not be harmful to environment or soil, and cost performance is high, and compared with other degradation techniques, cost is relatively low； Degradant additive is mainly used for refuse disposal system, packing business, agricultural, compost and plastics manufacturing industry, is suitable for making all kinds of drops Solve plastic products, such as farm-oriented mulch, drip irrigation zone, shopping bag, plastic bag, refuse bag, courier bag, mess-tin.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

In figure: the surface layer 1-, the middle layer 2-, 3- internal layer, the surface layer 4- resin layer, the surface layer 5- additive layer, the middle layer 6- resin layer, the middle layer 7- Additive layer, 8- inner layer resin layer, 9- internal layer additive layer.

Specific embodiment

A kind of biology base controlled degradation barrier novel package film, including surface layer 1, middle layer 2, internal layer 3；

Surface layer 1 includes surface layer resin layer 4, surface layer additive layer 5, and surface layer additive layer 5 is located at the lower section of surface layer resin layer 4, table Layer resin layer 4 is oxygen-containing polymeric material controlled degradation (JHSZ) resin, and surface layer additive layer 5 is oxygen-containing polyolefin controlled degradation (HYZJ) additive；

Middle layer 2 includes middle layer resin layer 6, middle layer additive layer 7, and middle layer additive layer 7 is located at the lower section of middle layer resin layer 6, in Layer resin layer 6 is modification biological base polyolefin adhesion (SHQ-MTIE) resin, and middle layer additive layer 7 is oxidative biological controlled degradation (YHZJ) additive；

Internal layer 3 includes inner layer resin layer 8, internal layer additive layer 9, and internal layer additive layer 9 is located at the lower section of inner layer resin layer 8, interior Layer resin layer 8 is modification biological base polyester binding (SHQ-GTIE) resin, and internal layer additive layer 9 is PVA biology base controlled degradation (PVZJ) additive.

The percentage thickness on surface layer 1 is 15%, and the percentage thickness in middle layer 2 is 70%, and the percentage thickness of internal layer 3 is 15%.

The percentage thickness of surface layer resin layer 4 is 85%, the percentage thickness of surface layer additive layer 5 is 15%.

The percentage thickness of middle layer resin layer 6 is 90%, the percentage thickness of middle layer additive layer 7 is 10%.

The percentage thickness of inner layer resin layer 8 is 95%, the percentage thickness of internal layer additive layer 9 is 5%.

Oxygen-containing polyolefin controlled degradation (HYZJ) additive, oxidative biological controlled degradation (YHZJ) additive, PVA are raw Object base controlled degradation (PVZJ) additive is equal are as follows: aminodithioformic acid cobalt.

The technical program uses binary process forming technique, refers on the basis of unitary technological forming (Recipe), Increase moulding process, unitary Recipe can only occupy 50% technology content in process of producing product, in addition binary at Type technique could improve the basic fundamental guarantee of product, be mainly reflected in the thinned of product and thicken, and enhancing is thinned, effectively drops Low cost improves occupation rate of market.

Binary process forming technique includes: unitary Recipe, binary moulding process.

Unitary Recipe includes:

1 oxygen-containing polyolefin controlled degradation material prescription technique；

2 oxidative biological controlled degradation material prescription techniques；

3PVA biology base controlled degradation material prescription technique；

4PBAT biology base controlled degradation material prescription technique；

5 triple controlled degradation technical formula techniques；

6 quadruple controlled degradation technical formula techniques；

7 five heavy controlled degradation technical formula techniques；

8 sixfold controlled degradation technical formula techniques；

9 three layers of water-retaining type controlled degradation technical formula technique.

Binary moulding process includes:

1 vacuum sizing moulding process；

2 intelligent weighing system moulding process；

3 interlayer material controlling intelligent control moulding process；

4 intelligent control thickness moulding process；

5 intelligent control width moulding process；

6 intelligence correction moulding process；

7 liang of bubble method moulding process；

8 three bubble method moulding process；

9 four bubble method moulding process；

10 puma manipulator automatic winding moulding process.

Principle:

Biology base controllable full-degradable plastics can be divided into starch, polyesters and other classes according to raw material point；

Starch is abundance, cheap natural macromolecular material, and native starch is small for having crystalline texture with inside Existing for granular state, molecular structure has straight chain and two kinds of branch.For different plant varieties, the form of starch granules, Size and the ratio of amylose and amylopectin content are all different.The partial size of starch granules is mostly at 15-100 μm. The chain compound that the glucose of amylose is combined with α-D-1,4 glycosidic bonds, relative molecular mass are (20-200) x10⁴.Branch The connection type of each glucose unit removes α-D-1 in chain starch, and outside 4 glycosidic bonds, there is also α-D-1,6 glycosidic bonds, average moleculars Quality is (100-400) x10⁶.The property of starch and relative molecular mass, branch lengths and the amylose and branch of starch The ratio of chain starch is related.The starch of high amylose content has preferable mechanical performance more suitable for preparing plastics, resulting product. Native starch is intermolecular, and there are hydrogen bonds, and dissolubility is very poor, hydrophilic but not soluble easily in water, it has highly polar crystallographic property. Since there are strong hydrogen bonding effects between the macromolecule of native starch, it is difficult to direct machine-shaping.To improve its process industrial art performance, one As be by open starch interchain hydrogen bond, make starch lose crystallization method realize.There are two types of its operating methods, and one is add Hot water content is greater than 90% starch solution, and starch granules is 60~70^oStart to be swollen between C, reaches 90 in temperature^oStarch after C Particle starts to burst apart, and macromolecule interchain hydrogen bond is opened, and generates gelation；Another kind is heated under air-tight state, is plasticated crowded Starch of the water content less than 28% out.

Polylactic acid (PLA) is also referred to as polylactide, belongs to polyester family, and structural formula is (- O-CHCH3-CO-) n.

The most important two kinds of polymerizations of polylactic acid are direct polymerization method and ring-opening polymerisation method.Direct polymerization method is typical Polycondensation reaction.Using the activity of lactic acid, by heating, dehydration condensation occurs between lactic acid molecules, obtains polylactic acid.It is directly poly- Legal simple production process, production cost is low, is not required to the intermediate of reaction to be separated.But the molecular weight of polylactic acid is lower, molecule Measure distributed more widely, performance is poor.Lactide ring-opening polymerisation method produces polylactic acid using two-step method.It is cyclized and is made by acid by dehydrating lactic first Then polylactic acid is made by refined lactide ring-opening polymerisation again in lactide.Polylactic acid physical force made from ring-opening polymerisation method Better performances are learned, the production cost of the method is higher than direct polymerization method.

The degradation of polylactic acid is divided into simple hydrolysis (acid-base catalysis) and enzymatic hydrolysis degradation.The principal degradation side of polylactic acid Formula is bulk erosion.Hydrophobic polymer becomes low relative molecular weight, water by the hydrolysis of labile bond on main chain (C-O key) Then soluble molecule and monomer are further degraded to water and carbon dioxide under the action of enzyme.The degradation of polylactic acid right and wrong first The hydrolysis of crystalline region, followed by crystalline region.Hydrolysis can because carboxyl there are due to accelerate.There are autocatalysis inside polylactic acid, Inside degradation speed specific surface it is fast.When degrading beginning, the hydrolysis of ester bond is isotropic in matrix.In degradation process In, carboxyl end group is to having hydrolyzed catalytic action.With the progress of degradation, carboxyl end group amount increases, and degradation rate is accelerated.

The embodiments of the present invention have been described in detail above, but content is only the preferred embodiment of the present invention, It should not be considered as limiting the scope of the invention, any changes and modifications in accordance with the scope of the present application, It should still be within the scope of the patent of the present invention.

Claims (6)

1. a kind of biology base controlled degradation obstructs novel package film, it is characterised in that:

Including surface layer, middle layer, internal layer；

The surface layer includes surface layer resin layer, surface layer additive layer, and the surface layer additive layer is located at the lower section of surface layer resin layer, The surface layer resin layer is oxygen-containing polymeric material controlled degradation (JHSZ) resin, and the surface layer additive layer is that oxygen-containing polyolefin can Control degradation (HYZJ) additive；

The middle layer includes middle layer resin layer, middle layer additive layer, and the middle layer additive layer is located at the lower section of middle layer resin layer, The middle layer resin layer is modification biological base polyolefin adhesion (SHQ-MTIE) resin, and the middle layer additive layer is oxidative biological Controlled degradation (YHZJ) additive；

The internal layer includes inner layer resin layer, internal layer additive layer, and the internal layer additive layer is located at the lower section of inner layer resin layer, The inner layer resin layer is modification biological base polyester binding (SHQ-GTIE) resin, and the internal layer additive layer is PVA biology base Controlled degradation (PVZJ) additive.

2. a kind of biology base controlled degradation according to claim 1 obstructs novel package film, it is characterised in that: the surface layer Percentage thickness be 15%, the percentage thickness in the middle layer is 70%, and the percentage thickness of the internal layer is 15%.

3. a kind of biology base controlled degradation according to claim 1 obstructs novel package film, it is characterised in that: the surface layer The percentage thickness of resin layer is 85%, the percentage thickness of surface layer additive layer is 15%.

4. a kind of biology base controlled degradation according to claim 1 obstructs novel package film, it is characterised in that: the middle layer The percentage thickness of resin layer is 90%, the percentage thickness of middle layer additive layer is 10%.

5. a kind of biology base controlled degradation according to claim 1 obstructs novel package film, it is characterised in that: the internal layer The percentage thickness of resin layer is 95%, the percentage thickness of internal layer additive layer is 5%.

6. a kind of biology base controlled degradation according to claim 1 obstructs novel package film, it is characterised in that: described oxygen-containing Polyolefin controlled degradation (HYZJ) additive, oxidative biological controlled degradation (YHZJ) additive, PVA biology base controlled degradation (PVZJ) additive is equal are as follows: aminodithioformic acid cobalt.