WO2022080472A1 - ポリビニルアルコール樹脂フィルム、ポリビニルアルコール樹脂フィルムの判別方法、及びポリビニルアルコール樹脂フィルムの製造方法 - Google Patents
ポリビニルアルコール樹脂フィルム、ポリビニルアルコール樹脂フィルムの判別方法、及びポリビニルアルコール樹脂フィルムの製造方法 Download PDFInfo
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- WO2022080472A1 WO2022080472A1 PCT/JP2021/038144 JP2021038144W WO2022080472A1 WO 2022080472 A1 WO2022080472 A1 WO 2022080472A1 JP 2021038144 W JP2021038144 W JP 2021038144W WO 2022080472 A1 WO2022080472 A1 WO 2022080472A1
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- Prior art keywords
- polyvinyl alcohol
- alcohol resin
- carbon
- pva
- resin film
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- C08L29/04—Polyvinyl alcohol; Partially hydrolysed homopolymers or copolymers of esters of unsaturated alcohols with saturated carboxylic acids
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- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/44—Resins; Plastics; Rubber; Leather
- G01N33/442—Resins; Plastics
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F216/00—Copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an alcohol, ether, aldehydo, ketonic, acetal or ketal radical
- C08F216/02—Copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an alcohol, ether, aldehydo, ketonic, acetal or ketal radical by an alcohol radical
- C08F216/04—Acyclic compounds
- C08F216/06—Polyvinyl alcohol ; Vinyl alcohol
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D65/00—Wrappers or flexible covers; Packaging materials of special type or form
- B65D65/38—Packaging materials of special type or form
- B65D65/46—Applications of disintegrable, dissolvable or edible materials
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F218/00—Copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an acyloxy radical of a saturated carboxylic acid, of carbonic acid or of a haloformic acid
- C08F218/02—Esters of monocarboxylic acids
- C08F218/04—Vinyl esters
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F8/00—Chemical modification by after-treatment
- C08F8/12—Hydrolysis
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J5/00—Manufacture of articles or shaped materials containing macromolecular substances
- C08J5/18—Manufacture of films or sheets
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N27/00—Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
- G01N27/62—Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating the ionisation of gases, e.g. aerosols; by investigating electric discharges, e.g. emission of cathode
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N30/00—Investigating or analysing materials by separation into components using adsorption, absorption or similar phenomena or using ion-exchange, e.g. chromatography or field flow fractionation
- G01N30/02—Column chromatography
- G01N30/62—Detectors specially adapted therefor
- G01N30/72—Mass spectrometers
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J49/00—Particle spectrometers or separator tubes
- H01J49/004—Combinations of spectrometers, tandem spectrometers, e.g. MS/MS, MSn
- H01J49/0086—Accelerator mass spectrometers
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F116/00—Homopolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an alcohol, ether, aldehydo, ketonic, acetal or ketal radical
- C08F116/02—Homopolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an alcohol, ether, aldehydo, ketonic, acetal or ketal radical by an alcohol radical
- C08F116/04—Acyclic compounds
- C08F116/06—Polyvinyl alcohol ; Vinyl alcohol
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F218/00—Copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an acyloxy radical of a saturated carboxylic acid, of carbonic acid or of a haloformic acid
- C08F218/02—Esters of monocarboxylic acids
- C08F218/04—Vinyl esters
- C08F218/08—Vinyl acetate
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08J—WORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
- C08J2329/00—Characterised by the use of homopolymers or copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an alcohol, ether, aldehydo, ketonic, acetal, or ketal radical; Hydrolysed polymers of esters of unsaturated alcohols with saturated carboxylic acids; Derivatives of such polymer
- C08J2329/02—Homopolymers or copolymers of unsaturated alcohols
- C08J2329/04—Polyvinyl alcohol; Partially hydrolysed homopolymers or copolymers of esters of unsaturated alcohols with saturated carboxylic acids
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L2203/00—Applications
- C08L2203/16—Applications used for films
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- G—PHYSICS
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- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2223/00—Investigating materials by wave or particle radiation
- G01N2223/60—Specific applications or type of materials
- G01N2223/623—Specific applications or type of materials plastics
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W90/00—Enabling technologies or technologies with a potential or indirect contribution to greenhouse gas [GHG] emissions mitigation
- Y02W90/10—Bio-packaging, e.g. packing containers made from renewable resources or bio-plastics
Definitions
- the present invention relates to a polyvinyl alcohol resin film containing a polyvinyl alcohol resin, a method for discriminating a polyvinyl alcohol resin film, and a method for producing a polyvinyl alcohol resin film.
- PVA polyvinyl alcohol resin
- PVA has biodegradability, which is rare for synthetic resins, and is also known as a synthetic resin with a low environmental load.
- most of the raw materials for producing PVA are produced using compounds derived from fossil fuels such as petroleum, coal, and natural gas as starting materials.
- Fossil fuels contain carbon that has been fixed in the ground for many years. Therefore, the release of carbon dioxide into the atmosphere by decomposing PVA with microorganisms or incinerating it like ordinary synthetic resin is carbon that was fixed deep in the earth and did not exist in the atmosphere. Will be released into the atmosphere as carbon dioxide, which can be a factor in global warming.
- plants are attracting attention as a carbon source because they are organisms that absorb carbon dioxide that circulates in the global environment, perform photosynthetic reactions using carbon dioxide and water as raw materials, and assimilate and immobilize as organisms.
- an alcohol component particularly ethyl alcohol
- ethyl alcohol can be distilled and separated from a fermented sugar product or a fermented cellulose product extracted from plant raw materials such as sugar cane and corn, and the dehydration reaction thereof can be used to obtain ethylene, which is an alkene.
- a vinyl ester monomer (hereinafter, may be referred to as a biovinyl ester monomer) is synthesized from this biologically derived ethylene (hereinafter, may be referred to as bioethylene) as a raw material, and this biovinyl ester monomer is polymerized. If PVA obtained by saponifying the obtained polyvinyl ester (hereinafter, may be referred to as bio-PVA) is produced, even if this bio-PVA is biodecomposed or incinerated to generate carbon dioxide, the earth It does not increase the carbon dioxide present in the environment and does not cause global warming.
- bioethylene biologically derived ethylene
- the carbons that make up carbon dioxide that circulate in the global environment are the isotopes of radioactive carbon-14 (hereinafter sometimes referred to as 14C ) and stable carbon- 12 (hereinafter referred to as 12C). There is), and a mixture of semi-stable carbon-13 (hereinafter sometimes referred to as 13C ), the mass ratio of which is 98.892% by mass for 12C and 1.108% by mass for 13C .
- 14 C are known to be 1.2 ⁇ 10-12 % by mass to 1.2 ⁇ 10-10 % by mass (trace amount). The ratio of 12 C and 13 C is stable.
- Radioactive 14 C is generated by the collision of neutrons contained in secondary cosmic rays generated by primary cosmic rays in the upper atmosphere with nitrogen atoms ( 14 N) in the atmosphere, so that the black spot activity of the sun Although it fluctuates slightly depending on the strength, etc., it is always supplied, but on the other hand, it decreases with a half-life of 5730 years.
- the carbon that makes up the body of an organism that constantly absorbs and grows carbon dioxide that circulates in the global environment is continuously renewed during its lifetime, so the three types of carbon isotopes that make up the carbon dioxide that circulates in the global environment Continue to take over the mass ratio.
- the mass ratios of the three carbon isotopes inside the organism are fixed at the ratio at the time of death.
- the half-life of 14 C is 5730 years, and the mass ratio of 14 C in fossil fuels formed long after the death of ancient organisms long before this circulates in the global environment. Since it is isolated from modern carbon dioxide, it is a very small value compared to the mass ratio of 14 C in carbon dioxide circulating in the global environment.
- the abundance ratio of 14 C in the carbon constituting ordinary PVA made from fossil fuel is also significantly smaller than the abundance ratio of 14 C in the carbon constituting bio-PVA, which is substantially 0%.
- Bio-PVA and fossil fuel-derived PVA can be distinguished by measuring the abundance ratio of 14 C in the contained carbon.
- a polyvinyl alcohol resin film containing a polyvinyl alcohol resin (hereinafter, may be referred to as a PVA film) is used as a source for manufacturing an optical film such as a polarizing film which is a component of an LCD such as a liquid crystal television.
- an optical film such as a polarizing film which is a component of an LCD such as a liquid crystal television.
- Examples include anti-films and film for packaging chemicals for individually packaging chemicals in a single dose, and demand has continued to increase in recent years.
- the PVA film used for these applications is required to have extremely high quality, such as having extremely few defects and almost no unevenness such as thickness.
- PVA film is used for various purposes such as raw film for manufacturing optical films and film for drug packaging.
- liquid crystal televisions and drug packages including optical films using PVA film are used.
- End products may cause problems due to the quality of PVA film.
- it is necessary to identify whether the PVA film causing the problem is manufactured in-house or manufactured by another company.
- it has been very difficult to identify the manufacturer of the PVA film by analyzing the PVA film used for the end product in which the problem has occurred. Therefore, there has been a demand for a method for easily and surely identifying the manufacturer of the PVA film used for the terminal product having a problem in the market.
- the present invention firstly provides a PVA film using PVA that does not increase carbon dioxide existing in the global environment even if it is biodegraded or incinerated to generate carbon dioxide, or the amount of increase is small.
- the purpose is to provide.
- ASTM D6866 As for the distinction between plant-derived organic substances and fossil fuel-derived organic substances, ASTM D6866 by the National Institute of Standards and Standards (NIST) is known. ASTM D6866 is a standard of ASTM (American Society for Testing and Materials) that determines the concentration of biogenic carbon in solid, liquid, and gas samples using a radioactive carbon dating method, and is currently an effective standard. The version of the standard is ASTM D6866-20, which came into effect in February 2020. By this method, it is possible to distinguish between a film containing bio-PVA and a film containing only PVA derived from fossil fuels that does not contain bio-PVA.
- the polyvinyl alcohol resin (A) is a polyvinyl alcohol resin (Ab) in which all or part of carbon is derived from biological ethylene (Bb), and the above [1] to [ The polyvinyl alcohol resin film according to any one of 3];
- the polyvinyl alcohol resin (A) contains ethylene units, and the content of ethylene units with respect to all the monomer units of the polyvinyl alcohol resin (A) is 1 mol% or more and less than 15 mol%.
- the polyvinyl alcohol resin (A) has an alkoxyl group at the end of the polymer, and the content of the alkoxyl group with respect to all the monomer units of the polyvinyl alcohol resin (A) is 0.0005 mol% or more and 1 mol.
- a method for discriminating a polyvinyl alcohol resin film which discriminates between a polyvinyl alcohol resin film containing only a polyvinyl alcohol resin film and a polyvinyl alcohol resin film containing only a polyvinyl alcohol resin (Ap) derived only from fossil fuel-derived ethylene (Bp); [14] By measuring the abundance ratio 14 C / C of carbon 14 ( 14 C) in all carbon, polyvinyl alcohol resin (Ab) in which all or part of carbon is derived from biological ethylene (Bb). And a polyvinyl alcohol resin film containing polyvinyl alcohol resin (Ab), which is different from the polyvinyl alcohol resin film and in which all or part of carbon is derived from biological ethylene (Bb).
- a method for discriminating a polyvinyl alcohol resin film [15] A stable carbon isotope ratio of carbon 13 ( 13 C) ⁇ 13 C for a polyvinyl alcohol resin film containing a polyvinyl alcohol resin (Ab) in which all or part of carbon is derived from biological ethylene (Bb).
- a method for discriminating a polyvinyl alcohol resin film which discriminates between a polyvinyl alcohol resin film containing a polyvinyl alcohol resin film and a polyvinyl alcohol resin film containing only a polyvinyl alcohol resin (Ap) derived only from fossil fuel-derived ethylene (Bp); [18] By measuring the stable carbon isotope ratio ⁇ 13 C of carbon 13 ( 13 C), a polyvinyl alcohol resin (Ab) in which all or part of carbon is derived from biological ethylene (Bb) can be obtained.
- a method for producing a polyvinyl alcohol resin film which comprises producing a polyvinyl alcohol resin film; Regarding.
- a PVA film using PVA that does not increase or increases a small amount of carbon dioxide existing in the global environment even if carbon dioxide is generated by biodegradation treatment or incineration treatment.
- the present invention provides a method for easily and surely identifying the manufacturer of the PVA film.
- the PVA film of the present invention contains PVA (A) which is a saponified product of polyvinyl ester, and the abundance ratio of 14 C in the total carbon constituting the PVA (A) is 14 C / C (hereinafter referred to as 14 C / C). (May be noted) is 1.0 ⁇ 10-14 or more. Total carbon is the sum of all carbon isotopes, and 14 C / C is the ratio of 14 C to total carbon.
- the 14 C / C is preferably 2.0 ⁇ 10 -14 or more, more preferably 5.0 ⁇ 10 -14 or more, and further preferably 1.0 ⁇ 10 -13 or more.
- 14 C / C there is no particular limitation on the upper limit of 14 C / C, but since the cost of raw materials derived from living organisms is generally higher than that of raw materials derived from fossil fuels, 14 C / C may be 1.0 ⁇ 10-11 or less. It is more preferably 7.0 ⁇ 10-12 or less, and even more preferably 5.0 ⁇ 10-12 or less.
- the method for measuring 14 C / C is not particularly limited, and for example, a sample (for example, vinyl acetate) is converted to carbon dioxide or graphite as required, and then accelerated mass spectrometry (AMS method; Accelerator Mass Spectrometry) is used.
- AMS method Accelerator Mass Spectrometry
- 14 C / C can be calculated by dividing the amount of 14 C in the sample by the total carbon content in the sample.
- [( 13 C / 12 C) sample ] represents the stable isotope ratio of the sample to be measured
- [( 13 C / 12 C) PDB ] represents the stable isotope ratio of the standard substance.
- PDB is an abbreviation for "Pee Dee Belemnite” and means fossils of arrow stones composed of calcium carbonate (fossil fossils of arrow stones excavated from the PeeDee layer in South Carolina as a standard substance), 13 C / 12 C ratio. It is used as a standard body of.
- the "carbon stable isotope ratio ⁇ 13 C" is measured by the accelerator mass spectrometry method. Since the standard substance is rare, a working standard whose stable isotope ratio to the standard substance is known can also be used.
- Bioethylene is roughly divided into two types according to the plant that is the raw material of the bioethylene, one derived from C3 plants such as sweet potato, sugar cane, rice, trees and algae, and the other derived from C4 plants such as corn, sugar cane and cassava. There is a big difference between the two ⁇ 13 C. In the case of PVA made from bioethylene derived from C3 plants, ⁇ 13 C is less than -20 ⁇ , and in the case of PVA made from bioethylene derived from C4 plants, ⁇ 13 C is -20 ⁇ or more.
- Plants are classified into three types, C3 plants, C4 plants, and succulent plant-type photosynthetic (CAM / Crassulacean Acid Metabolism) plants, according to the types of initial fixation products of carbon dioxide in the photosynthetic carbon dioxide fixation pathway.
- crops corn and miscellaneous grains are C4 plants
- the main crops such as rice and wheat are C3 plants
- cactus Cactaceae
- Crassulaceae cactus
- C3 plants More than 90% of the plants on the earth belong to C3 plants, including agriculturally useful plants such as rice, wheat, tobacco, wheat, potatoes and palm palms.
- the enzyme involved in carbon dioxide fixation in the photosynthetic pathway of C3 plants is ribulose-1,5-diphosphate carboxylase, which has low affinity for carbon dioxide and conversely has high affinity for oxygen, so carbon dioxide fixation. The efficiency of the reaction, and thus the photosynthetic reaction, is low.
- the PVA film of the present invention preferably has a stable carbon isotope ratio ⁇ 13 C of carbon 13 ( 13 C) measured by an accelerator mass spectrometry method of less than -20 ⁇ .
- ⁇ 13 C is more preferably ⁇ 50 ⁇ or higher, further preferably ⁇ 45 ⁇ or higher, and particularly preferably ⁇ 40 ⁇ or higher.
- ⁇ 13 C is more preferably ⁇ 22 ⁇ or less, further preferably ⁇ 25 ⁇ or less, and particularly preferably ⁇ 26 ⁇ or less.
- the fact that the stable carbon isotope ratio ⁇ 13 C in the PVA film of the present invention is in the above range indicates that PVA made from bioethylene derived from a C3 plant was used as PVA (A) contained in the PVA film. This is preferable from the viewpoint of raw material cost and supplyability. Further, as the C3 plant, rice, wheat, potato and palm oil are preferable.
- a C4 plant is a plant that performs C4 type photosynthesis, and is a form of photosynthesis having a C4 pathway for carbon dioxide enrichment in addition to the Calben-Benson circuit, which is a general carbon dioxide reduction circuit in the process of photosynthesis.
- the enzyme involved in carbon dioxide fixation in the photosynthetic pathway of this C4 plant is phosphoenolpyruvate carboxylase. This enzyme is not affected by oxygen-induced activity inhibition, has a high carbon dioxide-fixing ability, and is characterized by the presence of developed chloroplasts in vascular bundle sheath cells.
- Typical C4 plants include corn, sugar cane, cassaba, sorghum, pampas grass, guinea grass, rosegrass, foxtail millet, millet, Japanese millet, sardine, and broom tree. Also called. Since such C4 plants use extra energy to fix carbon dioxide, they can fix carbon dioxide more efficiently than other plants other than C4 plants. In addition, plants other than C4 plants have difficulty collecting carbon dioxide at high temperatures, but C4 plants do not. Moreover, photosynthesis can be sufficiently performed even with a small amount of water. It is a physiological adaptation for harsh climates for plants such as hot, dry, low carbon dioxide and poor nitrogen soils.
- the carbon stable isotope ratio ⁇ 13 C of carbon 13 ( 13 C) measured by the accelerator mass spectrometry is ⁇ 20 ⁇ or more.
- ⁇ 13 C is more preferably -18 ⁇ or higher, further preferably -15 ⁇ or higher, and particularly preferably -13 ⁇ or higher.
- ⁇ 13 C is more preferably -1 ⁇ or less, further preferably -4 ⁇ or less, and particularly preferably -7 ⁇ or less.
- the stable carbon isotope ratio ⁇ 13 C in the PVA film of the present invention is within the above range.
- the manufacturer of the PVA film can be more easily and reliably identified.
- corn, sugar cane, and cassava are preferable from the viewpoint of production amount and cost.
- CAM plants have a photosynthetic system adapted to a dry environment, and this photosynthetic system is considered to be a kind of evolved form of C3 photosynthesis.
- ⁇ 13 C of CAM plants is generally in the range of about ⁇ 35 ⁇ to about -10 ⁇ , and these CAM plants can be used as a biomass raw material in combination as long as necessary without interfering with the effects of the present invention. ..
- the PVA film of the present invention uses a mixture of 14 C / C, and if necessary, PVA having different 14 C / C or ⁇ 13 C as long as ⁇ 13 C is within the above range, as a raw material. May be good.
- a PVA film showing ⁇ 13 C be obtained using a raw material derived from a C3 plant, but also PVA of different ⁇ 13 C can be mixed to achieve a predetermined ⁇ 13 C, that is, a C3 plant alone.
- a more specific ⁇ 13 C including ⁇ 13 C the discrimination accuracy of the obtained PVA film can be further improved. That is, when different raw materials of ⁇ 13 C are used, the statistical analysis values obtained by analyzing the stable carbon isotope ratio are unique and can be distinguished from other raw materials, and therefore, such raw materials are used.
- the PVA film ⁇ 13 C produced from the raw material also has unique analytical values, which facilitates identification and tracking.
- PVA (Ab) there is no particular limitation on the method of obtaining PVA (Ab), but for example, (1) A method for obtaining PVA (Ab1) by saponifying only the polyvinyl ester (Db1) obtained by polymerizing only the biovinyl ester monomer (Cb1). (2) PVA (Ab2) is obtained by saponifying polyvinyl ester (Db2) obtained by polymerizing a biovinyl ester monomer (Cb2) made from a mixture of bioethylene (Bb) and fossil fuel-derived ethylene (Bp).
- PVA (Ab2) is obtained by saponifying polyvinyl ester (Db2) obtained by polymerizing a biovinyl ester monomer (Cb2) made from a mixture of bioethylene (Bb) and fossil fuel-derived ethylene (Bp).
- PVA is obtained by copolymerizing the biovinyl ester monomer (Cb1) with a vinyl ester monomer (Cp) made from fossil fuel-derived ethylene (Bp) and saponifying the polyvinyl ester (Db3).
- Bp fossil fuel-derived ethylene
- Db3 saponifying the polyvinyl ester
- a method combining the above methods (2) to (4), Etc. are exemplified.
- vinyl ester monomer examples include vinyl formate, vinyl acetate, vinyl propionate, vinyl valerate, vinyl laurate, vinyl stearate, vinyl benzoate, vinyl pivalate, vinyl versatic acid and the like. Of these, vinyl acetate is preferable.
- the method for producing the vinyl ester monomer is not particularly limited, and for example, it can be obtained by reacting ethylene with a compound having a carboxy group represented by R-COOH.
- Vinyl acetate can be synthesized as follows. Usually, vinyl acetate can be obtained by a gas phase reaction of ethylene, acetic acid and oxygen in the presence of a catalyst. At this time, by using ethylene containing a predetermined amount of 14 C or acetic acid containing a predetermined amount of 14 C as a compound having a carboxy group, vinyl acetate containing a predetermined amount of 14 C can be obtained. Examples of ethylene containing a predetermined amount of 14 C include bioethylene.
- the polyvinyl ester is preferably obtained by using one or more kinds of vinyl ester monomers, and more preferably obtained by using only one kind of vinyl ester monomer. Further, the polyvinyl ester may be a copolymer of one kind or two or more kinds of vinyl ester monomers and another monomer copolymerizable therewith.
- Ethylene is preferable as another monomer copolymerizable with the vinyl ester monomer. That is, the PVA contained in the PVA film of the present invention preferably contains ethylene units.
- the content of ethylene units is preferably 1 mol% or more, more preferably 1.5 mol% or more, based on the number of moles of all structural units constituting the vinyl ester polymer.
- the content of ethylene units is preferably less than 15 mol%, more preferably less than 10 mol%, based on the number of moles of all structural units constituting the vinyl ester polymer.
- the content of the ethylene unit is within the above range, when the PVA film of the present invention is used as a raw film for manufacturing an optical film, the water resistance and the like can be improved without significantly impairing the optical characteristics of the PVA film. can.
- the reason is not always clear, but the volume occupied by ethylene units in the crystal is not significantly different from that of vinyl alcohol units, while the hydrophilicity is weakened by introducing ethylene units into the polymer backbone. It is presumed that the crystal structure is not significantly disturbed.
- olefins having 3 to 30 carbon atoms such as propylene, 1-butene, and isobutene
- acrylic acid or a salt thereof methyl acrylate, ethyl acrylate, etc.
- Methacrylate esters such as ethylhexyl, dodecyl methacrylate, octadecyl methacrylate; acrylamide, N-methylacrylamide, N-ethylacrylamide, N, N-dimethylacrylamide, diacetoneacrylamide, acrylamide propanesulfonic acid or its salts, acrylamidepropyl Acrylamide derivatives such as dimethylamine or a salt thereof, N-methylolacrylamide or a derivative thereof; methacrylicamide, N-methylmethacrylicamide, N-ethylmethacrylicamide, methacrylicamidepropanesulfonic acid or a salt thereof, methacrylicamidepropyldimethylamine or a salt thereof.
- N-vinylamide derivatives such as N-methylolmethacrylicamide or derivatives thereof; N-vinylamides such as N-vinylformamide, N-vinylacetamide, N-vinylpyrrolidone; methylvinyl ether, ethylvinyl ether, n-propylvinyl ether, i-propylvinyl ether.
- Vinyl ethers such as n-butyl vinyl ether, i-butyl vinyl ether, t-butyl vinyl ether, dodecyl vinyl ether, stearyl vinyl ether; vinyl cyanide such as acrylonitrile and methacrylonitrile; vinyl chloride, vinylidene chloride, vinyl fluoride, vinylidene fluoride and the like. Vinyl halide; Allyl compounds such as allyl acetate and allyl chloride; Maleic acid or salts thereof, esters or acid anhydrides; Itaconic acid or salts thereof, esters or acid anhydrides; Vinyl silyl compounds such as vinyltrimethoxysilane; Isoacetate Propyl and the like can be mentioned.
- the vinyl ester-based polymer described above can have a structural unit derived from one or more of these other monomers.
- the ratio of structural units derived from other monomers to the polyvinyl ester constitutes the polyvinyl ester from the viewpoint of the strength of the obtained PVA film and the optical performance when the PVA film is used as a raw film for manufacturing an optical film. It is preferably 15 mol% or less, and more preferably 5 mol% or less, based on the number of moles of all structural units.
- a fossil fuel-derived monomer or a plant-derived monomer may be used as the other monomer copolymerizable with the vinyl ester monomer.
- the degree of polymerization of PVA (A) is preferably 200 or more.
- the degree of polymerization of PVA (A) is preferably less than 8,000.
- the degree of polymerization of PVA (A) is more preferably 300 or more, and even more preferably 500 or more, from the viewpoint of the strength of the PVA film.
- the degree of polymerization of PVA (A) is more preferably less than 5,000, and even more preferably less than 3,000.
- the degree of polymerization of PVA (A) means the average degree of polymerization Po measured according to the description of JIS K6726-1994, and the limit measured in water at 30 ° C. after re-sewing and purifying PVA. It is obtained from the viscosity [ ⁇ ] (unit: deciliter / g) by the following equation.
- the saponification degree of PVA (A) is preferably 80 mol% or more.
- the degree of saponification is more preferably 84 mol% or more, further preferably 88 mol% or more.
- the degree of saponification is preferably less than 100 mol%, more preferably less than 99.999 mol%, still more preferably less than 99.995 mol%.
- the degree of saponification of PVA is the vinyl alcohol unit with respect to the total number of moles of the structural unit (typically a vinyl ester monomer unit) and the vinyl alcohol unit that can be converted into vinyl alcohol units by saponification of PVA.
- the degree of saponification of PVA can be measured according to the description of JIS K6726-1994.
- the content of 1,2-glycol bond of PVA (A) is preferably 0.2 mol% or more.
- the content of the 1,2-glycol bond of PVA (A) is preferably less than 2.0 mol%. Since the content of the 1,2-glycol bond is less than 2.0 mol%, it is easy to obtain good optical properties and mechanical strength when the PVA film is used as a raw film for producing an optical film. On the other hand, when the content of the 1,2-glycol bond is 0.2 mol% or more, the productivity at the time of producing PVA (A) can be increased and the production cost can be reduced.
- the content of the 1,2-glycol bond of PVA (A) is more preferably 0.4 mol% or more, further preferably 0.6 mol% or more.
- the content of the 1,2-glycol bond of PVA (A) is more preferably less than 1.9 mol%, further preferably less than 1.8 mol%.
- PVA (A) has an alkoxyl group at the polymer terminal, and the content of the alkoxyl group with respect to all the monomer units (hereinafter, may be referred to as the content of the terminal alkoxyl group) is 0. It is preferably 0005 mol% or more. The content of the terminal alkoxyl group is preferably less than 1 mol%.
- the method for introducing an alkoxyl group into the polymer terminal is not particularly limited, and examples thereof include a method for polymerizing a vinyl ester using a polymerization initiator having an alkoxyl group.
- PVA (A) is eluted into the treatment liquid in the manufacturing process.
- concentration of PVA (A) in the treatment liquid increases, fine particles of PVA (A) precipitate in the treatment liquid due to the progress of boric acid cross-linking and adhere to the PVA film on the surface of the obtained polarizing film.
- Foreign matter derived from PVA fine particles remains and becomes a defect, which may cause a problem.
- PVA (A) has an alkoxyl group at the end of the polymer, and the content thereof with respect to all the monomer units is 0.0005 mol% or more and less than 1 mol%. It is possible to suppress the occurrence of problems.
- the content of the terminal alkoxyl group is less than 0.0005 mol%, it may not be possible to sufficiently reduce the foreign matter defects on the surface of the polarizing film derived from the fine particles of PVA (A). Further, when the content of the terminal alkoxyl group exceeds 1 mol%, the polarizing performance of the obtained polarizing film may be insufficient when the PVA film of the present invention is used as a raw film for manufacturing an optical film. ..
- the content of the terminal alkoxyl group with respect to all the monomer units is more preferably 0.001 mol% or more, further preferably 0.005 mol% or more.
- the content of the terminal alkoxyl group with respect to all the monomer units is more preferably less than 0.1 mol%, further preferably less than 0.05 mol%.
- PVA film in the present invention one type of PVA may be used as PVA (A), or two or more types of PVA having different degrees of polymerization, saponification, modification, etc. may be blended and used.
- PVA (A) and PVA derived from biomass such as bioethylene other than PVA (A) may be blended, or PVA (A) and PVA derived from petroleum or fossils may be blended. May be blended or both may be combined.
- the content of PVA (A) in the PVA film is not particularly limited, but is preferably 50% by mass or more, more preferably 80% by mass or more, and 85% by mass or more. Is even more preferable.
- the content may be 100% by mass, but in consideration of both the availability of biomass and the performance as a polarizing film, it is preferably 99% by mass or less, 95% by mass or less, and further 90% by mass. It may be mass% or less.
- the PVA film of the present invention is more rigid than other plastic films when it does not contain a plasticizer, and may have problems such as mechanical properties such as impact strength and process passability during secondary processing. In order to prevent these problems, it is preferable that the PVA film of the present invention contains a plasticizer.
- Preferred plasticizers include polyhydric alcohols, and specific examples thereof include polyhydric alcohols such as ethylene glycol, glycerin, diglycerin, propylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, trimethylolpropane and sorbitol. And so on. These plasticizers may be used alone or in combination of two or more.
- plasticizers ethylene glycol or glycerin is preferable, and glycerin is more preferable, from the viewpoint of difficulty in bleeding out to the film surface. Further, it is preferable to use a plasticizer manufactured from a biological raw material.
- the content of the plasticizer in the PVA film of the present invention is preferably 1 part by mass or more, more preferably 3 parts by mass or more, and 5 parts by mass or more with respect to 100 parts by mass of PVA contained in the PVA film. It is more preferable to have.
- the content of the plasticizer is preferably 70 parts by mass or less, more preferably 50 parts by mass or less, and further preferably 40 parts by mass or less. If the content of the plasticizer is less than 1 part by mass, the effect of improving mechanical properties such as impact strength of the PVA film may not be sufficient. On the other hand, if the content of the plasticizer exceeds 70 parts by mass, the PVA film may become too flexible and the handleability may be deteriorated, or the PVA film may be bleeded out to the film surface.
- the PVA film of the present invention may contain starch and / or a water-soluble polymer other than PVA (A).
- a water-soluble polymer other than PVA (A) By containing such a water-soluble polymer, mechanical strength is imparted to the PVA film, moisture resistance is maintained when handling the PVA film, or softening is achieved by absorbing water when the PVA film is dissolved. The speed can be adjusted.
- starch examples include natural starches such as corn starch, horse bell starch, sweet potato starch, wheat starch, rice starch, tapioca starch, and sago starch; processed starches that have been etherified, esterified, oxidized, etc. These can be mentioned, and processed starches are particularly preferable.
- the content of starch in the PVA film is preferably 15 parts by mass or less, and more preferably 10 parts by mass or less, with respect to 100 parts by mass of PVA (A). If the amount of starch is larger than 15 parts by mass, the process passability during production of the PVA film may deteriorate.
- water-soluble polymer other than PVA (A) examples include dextrin, gelatin, sardine, casein, shellac, gum arabic, polyacrylic acid amide, sodium polyacrylate, polyvinyl methyl ether, methyl vinyl ether and maleic anhydride.
- examples thereof include polymers, copolymers of vinyl acetate and itaconic acid, polyvinylpyrrolidone, cellulose, acetyl cellulose, acetyl butyl cellulose, carboxymethyl cellulose, methyl cellulose, ethyl cellulose, hydroxyethyl cellulose, sodium alginate and the like.
- the content of the water-soluble polymer other than PVA (A) in the PVA film is preferably 15 parts by mass or less, and more preferably 10 parts by mass or less with respect to 100 parts by mass of PVA (A). If the content of the water-soluble polymer other than PVA (A) is larger than 15 parts by mass, the physical properties of the PVA film may be impaired.
- ⁇ Surfactant> In the film formation of a PVA film, it is preferable to add a surfactant to the PVA film from the viewpoint of improving the handleability and the peelability from the film forming apparatus when producing the PVA film.
- a surfactant examples include anionic surfactants and nonionic surfactants.
- anionic surfactant examples include a carboxylic acid type such as potassium laurate; a sulfate ester type such as octyl sulfate; and a sulfonic acid type such as dodecylbenzene sulfonate.
- nonionic surfactant examples include an alkyl ether type such as polyoxyethylene lauryl ether and polyoxyethylene oleyl ether; an alkylphenyl ether type such as polyoxyethylene octylphenyl ether; and an alkyl ester type such as polyoxyethylene laurate.
- Alkylamine type such as polyoxyethylene laurylamino ether
- Alkylamide type such as polyoxyethylene lauric acid amide
- Polypropylene glycol ether type such as polyoxyethylene polyoxypropylene ether
- Alkanolamide type examples thereof include allylphenyl ether type such as polyoxyalkylene allylphenyl ether.
- One type of surfactant may be used, or two or more types may be used in combination.
- the PVA film of the present invention contains water, antioxidants, ultraviolet absorbers, lubricants, cross-linking agents, colorants, fillers, and the like. Ingredients such as preservatives, antifungal agents, and other polymer compounds may be contained within a range that does not interfere with the effects of the present invention.
- the ratio of the total mass of PVA, plasticizer, starch, water-soluble polymer other than PVA (A), and surfactant to the total mass of the PVA film of the present invention is within the range of 60 to 100% by mass. It is preferably in the range of 80 to 100% by mass, more preferably in the range of 90 to 100% by mass, and even more preferably in the range of 90 to 100% by mass.
- the thickness of the PVA film of the present invention is not particularly limited, but if the thickness is too thick, the secondary processability tends to deteriorate. Therefore, the thickness of the PVA film is preferably 200 ⁇ m or less, preferably 150 ⁇ m or less. It is more preferably 100 ⁇ m or less, still more preferably 50 ⁇ m or less. If the thickness is too thin, there may be a problem in the mechanical strength of the PVA film. Therefore, the thickness of the PVA film is preferably 5 ⁇ m or more, more preferably 10 ⁇ m or more, and more preferably 15 ⁇ m or more. It is more preferable, and it is particularly preferable that it is 20 ⁇ m or more.
- the thickness of the PVA film can be obtained as an average value by measuring the thickness of any 10 points (for example, any 10 points on a straight line drawn in the length direction of the PVA film).
- the PVA film of the present invention is used as a raw film or a water-soluble film for producing an optical film.
- the optical film include a polarizing film, a viewing angle improving film, a retardation film, a brightness improving film, and the like, but a polarizing film is preferable.
- the water-soluble film include a film for chemical packaging, a base film for hydraulic transfer, a base film for embroidery, a release film for artificial marble molding, a film for seed packaging, a film for a filth storage bag, and the like.
- a film for drug packaging is preferable.
- the type of the drug include detergents, pesticides, fungicides and the like.
- the form of the drug may be powdery, lumpy, gelled or liquid.
- a package can be obtained by packaging a drug using the PVA film of the present invention as a film for packaging a drug. By using this package, a certain amount of chemicals can be easily and safely used when washing clothes with detergent in ordinary households and when spraying pesticides on paddy fields in agricultural work.
- the method for producing a PVA film is a casting film forming method or a wet film forming method (in a poor solvent) using a film-forming stock solution homogenized by adding a solvent, an additive, etc. to PVA (A).
- A Charge to
- dry-wet film-forming method gel film-forming method (method in which the undiluted film-forming solution is once cooled and gelled, and then the solvent is extracted and removed to obtain a PVA film), or a method of forming a film by a combination thereof.
- the film can be formed by any method such as a melt extrusion film forming method or an inflation forming method, in which the above-mentioned undiluted film-forming solution is obtained by using an extruder or the like and extruded from a T-die or the like to form a film. ..
- the casting film forming method and the melt extrusion film forming method are preferable because a homogeneous film can be obtained with high productivity.
- a casting film forming method or a melt extrusion film forming method for a PVA film will be described.
- the above-mentioned film forming stock solution is poured into a film on a support such as a metal roll or a metal belt and heated to generate a solvent. By being removed, it solidifies into a film.
- the solidified film is peeled off from the support, dried by a drying roll, a drying oven, etc. as necessary, further heat-treated as necessary, and wound up to form a long roll-shaped PVA film. Obtainable.
- the volatile content concentration of the film-forming stock solution (concentration of volatile components such as a solvent removed by volatilization or evaporation during film-forming) is preferably 50% by mass or more, more preferably 55% by mass or more. preferable.
- the volatile content concentration of the film-forming stock solution is preferably 90% by mass or less, more preferably 80% by mass or less. If the volatile content concentration is less than 50% by mass, the viscosity of the film-forming stock solution becomes high, which may make film-forming difficult. On the other hand, when the volatile content concentration exceeds 90% by mass, the viscosity is lowered and the thickness uniformity of the film that can be obtained tends to be impaired.
- volatile fraction of the membrane-forming stock solution in the present specification means the volatile fraction obtained by the following formula.
- the method for preparing the undiluted film-forming solution there are no particular restrictions on the method for preparing the undiluted film-forming solution.
- a method of dissolving PVA and additives such as a plasticizer and a surfactant in a dissolution tank or the like, or a water-containing state using a uniaxial extruder or a twin-screw extruder.
- a method of melt-kneading together with a plasticizer, a surfactant and the like can be mentioned.
- the above-mentioned film forming stock solution is spilled from the film-like discharge device onto a support such as a metal roll or a metal belt in the form of a film. By heating and removing the solvent, it solidifies and forms a film.
- the surface temperature of the support on which the membrane-forming stock solution is spilled is preferably 50 ° C. or higher, more preferably 60 ° C. or higher, and even more preferably 65 ° C. or higher.
- the surface temperature of the support on which the membrane-forming stock solution is spilled is preferably 110 ° C. or lower, more preferably 100 ° C. or lower, and even more preferably 95 ° C. or lower.
- the surface temperature is less than 50 ° C., the time required for drying becomes long and the productivity tends to decrease.
- the surface temperature exceeds 110 ° C. abnormalities on the film surface such as foaming tend to occur, and the film tends to be too hard.
- hot air having a wind speed of 1 to 10 m / sec may be uniformly blown over the entire region on the non-contact surface side of the PVA film to adjust the drying rate.
- the temperature of the hot air blown to the non-contact surface side is preferably 50 ° C. or higher, and more preferably 70 ° C. or higher from the viewpoint of drying efficiency and uniformity of drying.
- the temperature of the hot air blown to the non-contact surface side is preferably 150 ° C. or lower, and more preferably 120 ° C. or lower, from the viewpoint of drying efficiency and uniformity of drying.
- the PVA film peeled off from the support is preferably dried on the support to a volatile fraction of 5 to 50% by mass, then peeled off, and further dried if necessary.
- the drying method is not particularly limited, and examples thereof include a method of contacting with a drying oven or a drying roll. When drying with a plurality of drying rolls, it is preferable to alternately bring one side and the other side of the film into contact with the drying rolls in order to make both sides uniform.
- the number of dry rolls is preferably 3 or more, more preferably 4 or more, and even more preferably 5 or more.
- the number of dry rolls is preferably 30 or less.
- the upper limit of the temperature of the drying oven and the drying roll is preferably 110 ° C. or lower, more preferably 100 ° C.
- the lower limit of the temperature of the drying oven and the drying roll is preferably 40 ° C. or higher, more preferably 45 ° C. or higher, and even more preferably 50 ° C. or higher. If the temperature of the drying oven and drying roll is too low, productivity may decrease.
- the dried PVA film can be further heat-treated as needed. By performing the heat treatment, it is possible to adjust the physical properties such as the strength, water solubility, and birefringence of the PVA film.
- the lower limit of the heat treatment temperature is preferably 60 ° C. or higher.
- the upper limit of the heat treatment temperature is preferably 135 ° C. or lower, more preferably 130 ° C. or lower. If the heat treatment temperature is too high, the film may become too hard.
- the PVA film thus produced is further subjected to humidity control treatment, cutting of both ends (ears) of the film, and the like, and is wound into a roll on a cylindrical core, if necessary. It is packaged in a moisture-proof package and becomes a product.
- the volatile fraction of the PVA film finally obtained by the above-mentioned series of treatments is not necessarily limited.
- the volatile fraction of the PVA film is preferably 1% by mass or more, more preferably 2% by mass or more.
- the volatile fraction of the PVA film is preferably 5% by mass or less, and more preferably 4% by mass or less.
- PVA (Ap) derived only from fossil fuel-derived ethylene (Bp) is PVA (Ab) in which all or part of carbon is derived from biological ethylene (Bb). It means that it is not contained, and it is not a concept of excluding PVA (Ap) containing other monomer units other than ethylene (Bp) derived from fossil fuels.
- the PVA film containing only PVA (Ap) means that it does not contain PVA (Ab) derived from biological ethylene (Bb), and is other than PVA (Ap). It is not a concept to exclude PVA film containing components.
- the PVA film manufactured in-house, by manufacturing so that the abundance ratio of carbon-14 ( 14 C) in total carbon is 14 C / C, the PVA film is owned by the company or another company. It is possible to determine whether it is a thing.
- carbon-14 (14) can be manufactured so that the abundance ratio 14 C / C of carbon- 14 ( 14 C) differs depending on the manufacturing base, manufacturing date, and manufacturing lot. By measuring the abundance ratio of C) 14 C / C, it is possible to specify the production base, production date, and production lot of the PVA film.
- the abundance ratio of 14 C in the total carbon is 14 C / C of 1.0 ⁇ 10 -14 or more, preferably 5.0 ⁇ . It is more preferable to manufacture the product so as to be 10-14 or more, and further preferably to manufacture the product so as to be 2.0 ⁇ 10-14 or more.
- the abundance ratio of 14 C in total carbon, 14 C / C is 1.0 ⁇ 10 in order to discriminate PVA films.
- the PVA film is preferably produced so as to be -11 or less, more preferably 5.0 ⁇ 10 -12 or less, and 0.1 ⁇ 10 -14 or less. Is even more preferable.
- the PVA film contained PVA (Ab) derived from biological ethylene (Bb).
- the biological ethylene (Bb) is that of C3 plant-derived ethylene (Bb) or C4 plant-derived ethylene (Bb). It is possible to determine which is the case. More specifically, when the carbon stable isotope ratio ⁇ 13 C of carbon 13 ( 13 C) is -20 ⁇ or more, the biological ethylene (Bb) is the C4 plant-derived ethylene (Bb).
- the carbon stable isotope ratio ⁇ 13 C is less than ⁇ 20 ⁇ , it is determined that the biologically-derived ethylene (Bb) is the C3 plant-derived ethylene (Bb).
- the abundance ratio of carbon-14 ( 14 C) in total carbon 14 C / C and the stable carbon isotope ratio ⁇ 13 C of carbon 13 ( 13 C) it is possible to discriminate the PVA film with higher accuracy. It can be performed.
- the PVA film contains PVA (Ab) derived from biological ethylene (Bb). It was decided to measure the carbon stable isotope ratio ⁇ 13 C of carbon 13 ( 13 C), but the carbon 14 ( 14 C) abundance ratio 14 C / C was not measured, and carbon 13 ( 13 ) was not measured. The carbon stable isotope ratio ⁇ 13C of C) is measured, and the PVA film containing PVA (Ab) in which all or part of carbon is derived from biological ethylene (Bb) is different from the PVA film. It can be distinguished from other PVA films.
- a PVA film containing PVA (Ab) derived from biological ethylene (Bb) and a PVA film containing PVA (Ab) derived from biological ethylene (Bb), which is different from the PVA film It is also possible to determine.
- the PVA film of the present invention can be suitably used for optical applications such as raw materials for polarizing films. It can also be suitably used for water-soluble films such as drug packaging and seed tapes.
- 14 C / C of PVA in the PVA film was calculated by dividing the obtained 14 C concentration by the total carbon concentration (total of 12 C concentration, 13 C concentration and 14 C concentration).
- the standard material graphite synthesized from the oxalic acid standard material (HOxII) provided by the US National Institute of Standards and Technology was used.
- the measurement limit of 14 C / C in this measurement is less than 1.0 ⁇ 10-14 .
- [( 13 C / 12 C) sample ] represents the carbon isotope ratio ( 13 C / 12 C ratio) of the purified PVA film to be measured, and [( 13 C / 12 C) PDB ].
- Example 1 (1) Synthesis of vinyl acetate Silica sphere carrier "HSV-I" (manufactured by Shanghai Haiyuan Chemical Technology Co., Ltd.) (sphere diameter 5 mm, specific surface area 160 m 2 / g, water absorption rate 0.75 g / g) 23 g (water absorption amount 19. 7 g) is impregnated with an aqueous solution corresponding to the amount of water absorbed by the carrier, which contains 1.5 g of a 56 mass% sodium tetrachloropallarate aqueous solution and 1.5 g of a 17 mass% tetrachlorogold acid tetrahydrate aqueous solution, and then the sodium metasilicate 9 is impregnated.
- HSV-I vinyl acetate Silica sphere carrier
- the obtained catalyst 3 mL is diluted with 75 mL of glass beads and filled in a SUS316L reaction tube (inner diameter 22 mm, length 480 mm), and the reaction temperature is 150 ° C. and the reaction pressure is 0.6 MPaG, and ethylene / oxygen / water / acetic acid / nitrogen.
- the reaction was carried out by circulating a gas mixed at a ratio of 47.3 / 6.1 / 5.6 / 26.3 / 14.7 (mol%) at a flow rate of 20 NL / hour.
- ethylene bioethylene derived from sugar cane (manufactured by Braskem SA) was used.
- the obtained reaction gas containing vinyl acetate was purified to obtain vinyl acetate.
- a 6% by mass methanol solution of sodium hydroxide was added to the obtained methanol solution of polyvinyl acetate under stirring so that the molar ratio of sodium hydroxide to the vinyl acetate unit of polyvinyl acetate was 0.023.
- the saponification reaction was started at 30 ° C.
- a gelled product was formed as the saponification reaction proceeded.
- the gelled product was pulverized to obtain PVA (PVA-1) swollen with methanol.
- the PVA-1 was washed with 5 times the mass of methanol and then dried with hot air at 55 ° C. for 1 hour and 100 ° C. for 2 hours.
- a roll of PVA film having a width of 0.6 m, a length of 1000 m, and a thickness of 30 ⁇ m was obtained.
- the obtained PVA film roll was unwound and subjected to swelling treatment, dyeing treatment, cross-linking treatment, stretching treatment, cleaning treatment, and drying treatment in this order to continuously produce a polarizing film.
- the swelling treatment was carried out by immersing the PVA film in a swelling treatment tank containing a treatment liquid (pure water) at 30 ° C., and uniaxially stretching the film 1.72 times in the length direction during that period.
- a treatment liquid pure water
- the PVA film is immersed in a swelling treatment tank containing a treatment liquid at 32 ° C. (an aqueous solution of 2.8% by mass of boric acid and 5% by mass of potassium iodide), during which the film is placed in the length direction.
- the PVA film is immersed in a swelling treatment tank containing a cross-linking treatment liquid (2.6 mass% boric acid aqueous solution) at 32 ° C., and the film is uniaxially stretched 1.12 times in the length direction during that time. I went by doing.
- the stretching treatment the PVA film is uniaxially stretched 2.31 times in the length direction in a swelling treatment tank containing a stretching treatment liquid (an aqueous solution of 2.8% by mass of boric acid and 5% by mass of potassium iodide) at 55 ° C. I went by that.
- the cleaning treatment was carried out by immersing the PVA film in a cleaning treatment tank containing a cleaning treatment solution (an aqueous solution of 1.5% by mass of boric acid and 5% by mass of potassium iodide) at 22 ° C. for 12 seconds.
- the drying treatment was carried out by drying the PVA film at 60 ° C. for 1.5 minutes.
- the PVA film was not stretched during the washing treatment and the drying treatment. In this way, the obtained PVA film roll was unwound to continuously produce a polarizing film.
- the polarizing film after the drying treatment is continuously wound for 6 hours to obtain the polarizing film.
- a roll polarizing film roll
- Table 1 shows the raw material and polymerization conditions of PVA.
- PVA PVA-2
- Example 2 PVA (PVA-2) was obtained in the same manner as in Example 1 except that the polymerization initiator used in the above "(2) Synthesis of PVA” was changed to azobisisobutyronitrile. Then, a PVA film roll and a polarizing film roll were manufactured, measured and evaluated in the same manner as in Example 1 except that PVA-2 was used. The results of measurement and evaluation are shown in Table 2. Table 1 shows the raw material and polymerization conditions of PVA.
- Example 3 PVA (PVA-3) was obtained in the same manner as in Example 1 except that the polymerization temperature of PVA was changed to 90 ° C. in the above “(2) Synthesis of PVA”. Then, a PVA film roll and a polarizing film roll were manufactured, measured and evaluated in the same manner as in Example 1 except that PVA-3 was used. The results of measurement and evaluation are shown in Table 2. Table 1 shows the raw material and polymerization conditions of PVA.
- PVA PVA-4
- Example 1 PVA (PVA-4) is the same as in Example 1 except that the ethylene used in the above "(1) Synthesis of vinyl acetate” is changed to petroleum-derived ethylene (manufactured by Air Liquide Industrial Gas Co., Ltd.). Got Then, a PVA film roll and a polarizing film roll were manufactured, measured and evaluated in the same manner as in Example 1 except that PVA-4 was used. The results of measurement and evaluation are shown in Table 2. Table 1 shows the raw material and polymerization conditions of PVA.
- Example 4 The PVA used in the above "(3) Production of PVA film and PVA film roll" is used as the PVA.
- a polarizing film roll was manufactured, measured and evaluated. The results of measurement and evaluation are shown in Table 2.
- Table 1 shows the raw material and polymerization conditions of PVA.
- Example 5 As the monomer used in the above "(2) Synthesis of PVA", 5.7 parts by mass of sugarcane-derived bioethylene (manufactured by Braskem SA) was added to 100 parts by mass of vinyl acetate in the reaction vessel. PVA (PVA-5) was obtained in the same manner as in Example 1 except that the polymerization reaction was carried out while maintaining the pressure of 0.03 MPaG. Then, a PVA film roll and a polarizing film roll were manufactured, measured and evaluated in the same manner as in Example 1 except that PVA-5 was used. The results of measurement and evaluation are shown in Table 2. Table 1 shows the raw material and polymerization conditions of PVA.
- Example 6 Rice, which is a C3 plant, was treated through an alkali treatment step, a saccharification treatment step, and an ethanolization step to obtain ethanol derived from rice. This ethanol was subjected to a dehydration reaction treatment at 190 ° C. using mordenite as a catalyst to produce rice-derived bioethylene.
- PVA PVA-6
- Example 1 PVA (PVA-6) was obtained in the same manner as in Example 1 except that the ethylene used in the above "(1) Synthesis of vinyl acetate” was changed to the bioethylene derived from rice.
- a PVA film roll and a polarizing film roll were manufactured, measured and evaluated in the same manner as in Example 1 except that PVA-6 was used.
- Table 2 shows the raw material and polymerization conditions of PVA.
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Abstract
Description
[1]ポリビニルアルコール樹脂(A)を含むポリビニルアルコール樹脂フィルムであり、該ポリビニルアルコール樹脂(A)を構成する全炭素中の炭素14(14C)の存在比率14C/Cが1.0×10-14以上である、ポリビニルアルコール樹脂フィルム;
[2]炭素13(13C)の炭素安定同位体比δ13Cが-20‰以上である、前記[1]に記載のポリビニルアルコール樹脂フィルム;
[3]炭素13(13C)の炭素安定同位体比δ13Cが-20‰未満である、前記[1]に記載のポリビニルアルコール樹脂フィルム;
[4]前記ポリビニルアルコール樹脂(A)の全部又は一部が、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)である、前記[1]~[3]のいずれかに記載のポリビニルアルコール樹脂フィルム;
[5]前記ポリビニルアルコール樹脂(A)がエチレン単位を含有し、前記ポリビニルアルコール樹脂(A)の全単量体単位に対するエチレン単位の含有量が1モル%以上、15モル%未満である、前記[1]~[4]のいずれかに記載のポリビニルアルコール樹脂フィルム;
[6]前記ポリビニルアルコール樹脂(A)のけん化度が80モル%以上である、前記[1]~[5]のいずれかに記載のポリビニルアルコール樹脂フィルム;
[7]前記ポリビニルアルコール樹脂(A)の重合度が200以上、8,000未満である、前記[1]~[6]のいずれかに記載のポリビニルアルコール樹脂フィルム;
[8]前記ポリビニルアルコール樹脂(A)の1,2-グリコール結合の含有量が0.2モル%以上、2.0モル%未満である、前記[1]~[7]のいずれかに記載のポリビニルアルコール樹脂フィルム;
[9]前記ポリビニルアルコール樹脂(A)が重合体末端にアルコキシル基を有し、前記ポリビニルアルコール樹脂(A)の全単量体単位に対するアルコキシル基の含有量が0.0005モル%以上、1モル%未満である、前記[1]~[8]のいずれかに記載のポリビニルアルコール樹脂フィルム;
[10]前記[1]~[9]のいずれかに記載のポリビニルアルコール樹脂フィルムを用いた光学フィルム;
[11]前記[1]~[9]のいずれかに記載のポリビニルアルコール樹脂フィルムを用いた水溶性フィルム;
[12]洗剤、農薬、又は殺菌剤を、前記[11]に記載の水溶性フィルムにより包装した包装体;
[13]全炭素中の炭素14(14C)の存在比率14C/Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、化石燃料由来のエチレン(Bp)のみを由来とするポリビニルアルコール樹脂(Ap)のみを含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法;
[14]全炭素中の炭素14(14C)の存在比率14C/Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、該ポリビニルアルコール樹脂フィルムとは異なる他の、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法;
[15]炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムについて、炭素13(13C)の炭素安定同位体比δ13Cを測定することにより、生物由来のエチレン(Bb)がC3植物由来のエチレン(Bb)又はC4植物由来のエチレン(Bb)のいずれであるかを判別する、前記[13]又は[14]に記載のポリビニルアルコール樹脂フィルムの判別方法;
[16]炭素13の(13C)の炭素安定同位体比δ13Cが-20‰以上である場合に、生物由来のエチレン(Bb)がC4植物由来のエチレン(Bb)であると判別し、前記炭素安定同位体比δ13Cが-20‰未満である場合に、生物由来のエチレン(Bb)がC3植物由来のエチレン(Bb)であると判別する、前記[15]に記載のポリビニルアルコール樹脂フィルムの判別方法;
[17]炭素13の(13C)の炭素安定同位体比δ13Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、化石燃料由来のエチレン(Bp)のみを由来とするポリビニルアルコール樹脂(Ap)のみを含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法;
[18]炭素13の(13C)の炭素安定同位体比δ13Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、該ポリビニルアルコール樹脂フィルムとは異なる他の、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法;
[19]生物由来のエチレン(Bb)に、カルボキシ基を有する化合物を反応させることでビニルエステルモノマーを合成し、又は、エチレン(Bb)に、カルボキシ基を有する化合物を反応させることでビニルエステルモノマーを合成し、得られたビニルエステルモノマーを重合してポリビニルエステルを得、得られたポリビニルエステルをけん化することで、ポリビニルアルコール樹脂(Ab)を得、得られたポリビニルアルコール樹脂(Ab)を用いてポリビニルアルコール樹脂フィルムを製造する、ポリビニルアルコール樹脂フィルムの製造方法;
に関する。
本発明のPVAフィルムは、ポリビニルエステルのけん化物であるPVA(A)を含み、当該PVA(A)を構成する全炭素中の14Cの存在比率14C/C(以下、14C/Cと記することがある)が1.0×10-14以上である。全炭素とは全ての炭素の同位体を合算したものであり、14C/Cとは全炭素に対する14Cの比である。14C/Cが1.0×10-14未満である場合、ASTM D6866に準拠した測定方法の測定下限に近くなり、精度の良い測定が困難になり、PVAフィルムに含まれるPVA(A)がバイオPVAであるかの判別が困難になる。また14C/Cが小さいということは、PVA(A)を製造する際の、生物由来原料の使用割合が少ないことを示しており、地球環境内に存在する二酸化炭素の増加量の削減効果が不十分となる。14C/Cは2.0×10-14以上である事が好ましく、5.0×10-14以上である事がより好ましく、1.0×10-13以上である事がさらに好ましい。一方、14C/Cの上限に特に制限はないが、生物由来の原料は化石燃料由来の原料よりも一般にコストが高いため、14C/Cは1.0×10-11以下である事が好ましく、7.0×10-12以下である事がより好ましく、5.0×10-12以下である事がさらに好ましい。
本発明における13Cの炭素安定同位体比δ13C(以下、δ13Cと記することがある)とは、自然界に存在する炭素原子の3種類の同位体(存在比 12C:13C:14C=98.9:1.11:1.2×10-12 単位;%)のうち、12Cに対する13Cの割合をいい、炭素安定同位体比は、標準物質に対する偏差で表され、以下の式で定義される値(δ値)をいう。
バイオエチレンはその原料となる植物によりおおきく2つに大別され、サツマイモ、サトウダイコン、イネ、樹木、藻類などのC3植物に由来するものと、トウモロコシ、サトウキビ、キャッサバなどのC4植物に由来するものがあり、両者のδ13Cは大きく異なる。C3植物由来のバイオエチレンを原料としたPVAの場合、δ13Cは-20‰未満となり、C4植物由来のバイオエチレンを原料としたPVAの場合、δ13Cは-20‰以上となる。そのため、C3植物由来のバイオエチレンを原料としたPVAと、C4植物由来のバイオエチレンを原料としたPVAとは、上記14C/Cを測定して化石燃料由来のPVAである可能性を排除した上で、δ13Cを測定すれば判別できる。
本発明のPVAフィルムにおいて、PVA(A)の全部もしくは一部が、当該PVA(A)を構成する炭素の全部もしくは一部が、生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)である、ことが好ましい。すなわち、本発明のPVAフィルムにおいて、PVA(A)は、PVA(Ab)単独でもよく、PVA(Ab)と化石燃料由来の原料のみから得られるPVA(Ap)の混合物であってもよい。
(1)バイオビニルエステルモノマー(Cb1)のみを重合して得られたポリビニルエステル(Db1)のみをけん化してPVA(Ab1)を得る方法、
(2)バイオエチレン(Bb)と化石燃料由来のエチレン(Bp)の混合物を原料としたバイオビニルエステルモノマー(Cb2)を重合して得られたポリビニルエステル(Db2)をけん化してPVA(Ab2)を得る方法、
(3)前記バイオビニルエステルモノマー(Cb1)と、化石燃料由来のエチレン(Bp)を原料としたビニルエステルモノマー(Cp)とを共重合して得られたポリビニルエステル(Db3)をけん化してPVA(Ab3)を得る方法、
(4)前記ポリビニルエステル(Db1)と、化石燃料由来のビニルエステルモノマー(Cp)のみを重合して得られたポリビニルエステル(Dp)を混合したものをけん化してPVA(Ab4)を得る方法、
(5)上記(2)~(4)の方法を組み合わせた方法、
などが例示される。
本発明のPVAフィルムは、可塑剤を含まない状態では他のプラスチックフィルムに比べ剛直であり、衝撃強度等の機械的物性や二次加工時の工程通過性などが問題になることがある。それらの問題を防止するために、本発明のPVAフィルムには可塑剤を含有させることが好ましい。好ましい可塑剤としては多価アルコールが挙げられ、具体的には、例えば、エチレングリコール、グリセリン、ジグリセリン、プロピレングリコール、ジエチレングリコール、トリエチレングリコール、テトラエチレングリコール、トリメチロールプロパン、ソルビトール等の多価アルコールなどを挙げることができる。これらの可塑剤は1種を単独で使用しても2種以上を併用してもよい。これらの可塑剤の中でも、フィルム表面へのブリードアウトがしにくいなどの観点から、エチレングリコール又はグリセリンが好ましく、グリセリンがより好ましい。また、可塑剤も生物由来の原料より製造されたものを使用することが好ましい。
本発明のPVAフィルムは、澱粉および/又はPVA(A)以外の水溶性高分子を含有してもよい。このような水溶性高分子を含有することで、PVAフィルムに機械的強度を付与し、PVAフィルムを取り扱う際の耐湿性を維持し、あるいはPVAフィルムを溶解する際の水の吸収による柔軟化の速度を調節することができる。
PVAフィルムの製膜において、その取り扱い性や、またPVAフィルムを製造する際の製膜装置からの剥離性の向上などの観点からPVAフィルムに界面活性剤を添加することが好ましい。界面活性剤の種類としては、アニオン系界面活性剤、ノニオン系界面活性剤などが例示できる。
界面活性剤は1種を使用しても、2種以上を併用してもよい。
本発明のPVAフィルムは、可塑剤、澱粉、PVA(A)以外の水溶性高分子、界面活性剤以外に、水分、酸化防止剤、紫外線吸収剤、滑剤、架橋剤、着色剤、充填剤、防腐剤、防黴剤、他の高分子化合物などの成分を、本発明の効果を妨げない範囲で含有してもよい。PVA、可塑剤、澱粉、PVA(A)以外の水溶性高分子、界面活性剤の各質量の合計値が本発明のPVAフィルムの全質量に占める割合は、60~100質量%の範囲内であることが好ましく、80~100質量%の範囲内であることがより好ましく、90~100質量%の範囲内であることがさらに好ましい。
本発明のPVAフィルムの厚みに特に制限はないが、厚みが厚すぎると二次加工性が悪化する傾向があることから、PVAフィルムの厚みは、200μm以下であることが好ましく、150μm以下であることがより好ましく、100μm以下であることがさらに好ましく、50μm以下であることがさらに好ましい。また厚みがあまりに薄い場合、PVAフィルムの力学的強度に問題が生じるおそれがあることから、PVAフィルムの厚みは、5μm以上であることが好ましく、10μm以上であることがより好ましく、15μm以上であることがさらに好ましく、20μm以上であることが特に好ましい。なお、PVAフィルムの厚みは、任意の10箇所(例えば、PVAフィルムの長さ方向に引いた直線上にある任意の10箇所)の厚みを測定し、それらの平均値として求めることができる。
本発明のPVAフィルムは、光学フィルム製造用の原反フィルム又は水溶性フィルムとして用いられる。光学フィルムとしては、偏光フィルム、視野角向上フィルム、位相差フィルム、輝度向上フィルム等が例示されるが、偏光フィルムであることが好ましい。また、水溶性フィルムとしては、薬剤包装用フィルム、液圧転写用ベースフィルム、刺繍用基材フィルム、人工大理石成形用離型フィルム、種子包装用フィルム、汚物収容袋用フィルム等が例示されるが、薬剤包装用フィルムであることが好ましい。薬剤の種類としては、例えば、洗剤、農薬、又は殺菌剤等が挙げられる。薬剤の形態としては、粉末状、塊状、ゲル状および液体状のいずれであってもよい。本発明のPVAフィルムを薬剤包装用フィルムとして用いて薬剤を包装することにより、包装体を得ることができる。この包装体を用いることで、一般家庭において洗剤を用いて衣服を洗濯する際や、農作業において水田に農薬を散布する際に、一定量の薬剤を簡便かつ安全に使用することができる。
本発明において、PVAフィルムの製造方法は、PVA(A)に溶媒、添加剤等を加えて均一化させた製膜原液を使用して、流延製膜法、湿式製膜法(貧溶媒中への吐出)、乾湿式製膜法、ゲル製膜法(製膜原液を一旦冷却ゲル化した後、溶媒を抽出除去し、PVAフィルムを得る方法)、あるいは、これらの組み合わせにより製膜する方法や、押出機などを使用して上記製膜原液を得てこれをTダイなどから押出すことにより製膜する溶融押出製膜法やインフレーション成形法など、任意の方法により製膜することができる。これらの中でも、流延製膜法および溶融押出製膜法が、均質なフィルムを生産性よく得ることができるため、好ましい。以下、PVAフィルムの流延製膜法又は溶融押出製膜法について説明する。
(式中、Waは製膜原液の質量(g)を表し、WbはWa(g)の製膜原液を105℃の電熱乾燥機中で16時間乾燥した時の質量(g)を表す。)
以上の方法により得られたPVAフィルムは、全炭素中の炭素14(14C)の存在比率14C/Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするPVA(Ab)を含むPVAフィルムと、化石燃料由来のエチレン(Bp)のみを由来とするPVA(Ap)のみを含むPVAフィルムとを判別することができる。
本発明のPVAフィルムは、上記のように偏光フィルムの原料などの光学用途に好適に用いる事ができる。また薬剤包装やシードテープなどの水溶性フィルムの用途にも好適に用いる事ができる。
以下の実施例又は比較例で得られたPVAフィルムロールを巻き出して約5gのフィルムを採取し、小さく裁断した。そして裁断したPVAフィルムを、クロロホルムを用いてソックスレー抽出器で抽出した。このようにしてPVAフィルム中のPVA以外の成分を十分に除去することで、PVAフィルムを精製し、PVAフィルム中のPVAを得た。
上記の[PVAフィルムの精製]で得られたPVAを、米国材料試験協会(American Society of Testing and Materials)で規定される前処理方法(ASTM D6866/Method B)によりCO2化させた後、鉄触媒を用いた完全還元処理によりC(グラファイト)化させた。次いで、加速器質量分析法により、精製したPVAフィルム及び標準物質の炭素同位体比(14C/12C比,13C/12C比)を測定し、それらの測定結果から12C濃度、13C濃度及び14C濃度を求めた。そして、得られた14C濃度を全炭素濃度(12C濃度、13C濃度及び14C濃度の合計)で除すことにより、PVAフィルム中のPVAの14C/Cを算出した。ここで、標準物質としては、米国国内率標準技術研究所が提供しているシュウ酸標準物質(HOxII)から合成したグラファイトを用いた。なお、本測定における14C/Cの測定限界は1.0×10-14未満である。
上記の[PVAフィルムの精製]で得られたPVAを、米国材料試験協会(American Society of Testing and Materials)で規定される前処理方法(ASTM D6866/Method B)によりCO2化させた後、鉄触媒を用いた完全還元処理によりC(グラファイト)化させた。次いで、加速器質量分析法により、精製したPVAフィルム及び標準物質の炭素同位体比(13C/12C比)を測定した。そして、以下の式により炭素安定同位体比δ13Cを算出した。ここで、標準物質としては、PDB(「Pee Dee Belemnite」)を用いた。
上記の[PVAフィルムの精製]で得られたPVAを、ジメチルスルホキシド(DMSO-d6)に溶解させた後、その溶液をアセトンに添加してPVAを析出させることにより、さらに精製した。このPVAのDMSO-d6溶液にトリフルオロ酢酸(TFA)を1~2滴滴下し、得られた試料について以下の条件にて直ちにNMR測定を行った。得られたNMRスペクトルからPVAフィルム中のPVAのエチレン単位含有量、アルコキシル基含有量、1,2-グリコール結合含有量及びけん化度を求めた。
使用装置:日本電子株式会社製超伝導核磁気共鳴装置「Lambda500」
溶媒:DMSO-d6(TFA滴下)
濃度:5質量%
温度:80℃
共鳴周波数:1H 500MHz
フリップアングル:45°
パルスディレイタイム:4.0秒
積算回数:6000回
以下の実施例又は比較例で得られたPVAフィルムロールの幅方向中央部から幅方向30mm、流れ方向60mmの長方形の試験片を採取した。この試験片を引張試験機にチャック間隔15mmでセットした後、所定の温度に設定した恒温水槽中で延伸して破断時の延伸倍率を測定した。これを3回繰り返し、破断時の延伸倍率の平均値を求めた。この平均値が6.5倍以上であれば、恒温水槽の温度を1℃下げ、6.5倍未満であれば恒温水槽の温度を1℃上げ、破断時の延伸倍率の平均値が6.5倍以上となる限界の温度(平均値が6.5倍以上となる最低温度)を求めた。
以下の実施例又は比較例で得られた偏光フィルムロールを巻き出して、長さ方向(延伸方向)30cm、幅方向20cmのサイズにカットした。カットした偏光フィルムの表面に存在する青色異物を目視で観察し、最長径が5~500μmである異物の数(個/600cm2)を求めた。これを3回繰り返して、異物数の平均値(個/600cm2)を求めた。異物の最長径は微分干渉顕微鏡(倍率:200倍)を用いて測定した。なお、以下の実施例又は比較例においては、乾燥処理後の偏光フィルムを6時間連続的に巻き取っているため、カットした偏光フィルムは、偏光フィルムを製造開始してから約6時間後のサンプルとなる。
以下の実施例又は比較例で得られた偏光フィルムロールを巻き出して、長さ方向(延伸方向)30cm、幅方向20cmのサイズにカットした。このカットした偏光フィルムの幅方向の中央部から、偏光フィルムの長さ方向(延伸方向)1.5cm、幅方向1.5cmの正方形のサンプルを2枚採取し、それらの長さ方向(延伸方向)が平行になるように重ねた場合の光の透過率(Y∥)、および長さ方向(延伸方向)が直交するように重ねた場合の光の透過率(Y⊥)を、上記透過率の測定方法と同様の方法にて測定し、下記の式から偏光度(V)(%)を求めた。
(1)酢酸ビニルの合成
シリカ球体担体「HSV-I」(上海海源化工科技有限公司製)(球体直径5mm、比表面積160m2/g、吸水率0.75g/g)23g(吸水量19.7g)に、56質量%テトラクロロパラジウム酸ナトリウム水溶液1.5gおよび17質量%テトラクロロ金酸四水和物水溶液1.5gを含む担体吸水量相当の水溶液を含浸させた後、メタケイ酸ナトリウム9水和物2.5gを含む水溶液40mLに浸漬し、20時間静置した。続いて、52質量%ヒドラジン水和物水溶液3.3mLを添加、室温で4時間静置した後、水中に塩化物イオンが無くなるまで水洗し、110℃で4時間乾燥した。得られたパラジウム/金/担体組成物を1.7質量%酢酸水溶液60mLに浸漬し、16時間静置した。次いで、16時間水洗し、110℃で4時間乾燥した。その後、2gの酢酸カリウムの担体吸水量相当水溶液に含浸し、110℃で4時間乾燥することで酢酸ビニル合成触媒を得た。
モノマーとして上記で得られた酢酸ビニル、重合開始剤として2,2’-アゾビス-(4-メトキシ-2,4-ジメチルバレロニトリル)、溶媒としてメタノールを用いて、公知の方法により重合温度60℃で重合を行った後、共役二重結合を有する分子量1000以下の化合物として2,4-ジフェニル-4-メチル-1-ペンテン(DPMP)を、使用した重合開始剤1モル当たり2モル添加した。重合時間は、目標とする重合度に合わせて調整した。得られたポリ酢酸ビニルのメタノール溶液に、ポリ酢酸ビニルの酢酸ビニル単位に対する水酸化ナトリウムのモル比が0.023となるように、水酸化ナトリウムの6質量%メタノール溶液を撹拌下に加えて、30℃でケン化反応を開始させた。ケン化反応の進行に伴ってゲル化物が生成した。ケン化反応の開始から50分経過した時点でゲル化物を粉砕してメタノールで膨潤したPVA(PVA-1)を得た。このPVA-1をその5倍の質量のメタノールで洗浄し、次いで55℃で1時間、100℃で2時間、熱風乾燥した。
得られたPVA-1 100質量部、グリセリン12質量部、ラウリン酸ジエタノールアミド0.1質量部を含有する水溶液(PVA濃度:15質量%)を、PVAフィルムの製膜原液として調整した。この製膜原液をスリットダイから表面温度90℃に調整された直径2mの第1金属ロール上に吐出させて乾燥させ、水分率が12質量%となったフィルムを金属ロールから剥離した。次いで表面温度70℃の直径1mの第2金属ロールに、第1金属ロールが接触していなかったフィルム面を接触させて乾燥させた。さらにフィルムの一面と他面が交互に金属ロールに接するように、当該フィルムを第3~6金属ロール(表面温度80~120℃、直径1m)に順次接触させて乾燥させて巻き取ることにより、幅0.6m、長さ1000m、厚み30μmのPVAフィルムのロール状物(PVAフィルムロール)を得た。
得られたPVAフィルムロールを巻き出して、膨潤処理、染色処理、架橋処理、延伸処理、洗浄処理、乾燥処理をこの順に施して偏光フィルムを連続的に製造した。膨潤処理は、30℃の処理液(純水)が入った膨潤処理槽中にPVAフィルムを浸漬し、その間に当該フィルムを長さ方向に1.72倍に一軸延伸することにより行った。染色処理は、32℃の処理液(ホウ酸2.8質量%およびヨウ化カリウム5質量%の水溶液)が入った膨潤処理槽中にPVAフィルムを浸漬し、その間に当該フィルムを長さ方向に1.37倍に一軸延伸することにより行った。架橋処理は、32℃の架橋処理液(2.6質量%ホウ酸水溶液)が入った膨潤処理槽中にPVAフィルムを浸漬し、その間に当該フィルムを1.12倍に長さ方向に一軸延伸することにより行った。延伸処理は55℃の延伸処理液(ホウ酸2.8質量%およびヨウ化カリウム5質量%の水溶液)が入った膨潤処理槽中でPVAフィルムを長さ方向に2.31倍に一軸延伸することにより行った。洗浄処理は22℃の洗浄処理液(ホウ酸1.5質量%およびヨウ化カリウム5質量%の水溶液)の入った洗浄処理槽中にPVAフィルムを12秒間浸漬することにより行った。乾燥処理は60℃で1.5分間PVAフィルムを乾燥させることにより行った。ここで、洗浄処理及び乾燥処理の間はPVAフィルムの延伸を行わなかった。このようにして、得られたPVAフィルムロールを巻き出して、偏光フィルムを連続的に製造した。
得られた偏光フィルムの幅方向の中央部から、偏光フィルムの長さ方向(延伸方向)1.5cm、幅方向1.5cmの正方形のサンプルを2枚採取し、それぞれについて株式会社日立製作所製の分光光度計V-7100(積分球付属)を用いて、JIS Z8722(物体色の測定方法)に準拠し、C光源、2度視野の可視光領域の視感度補正を行い、1枚の偏光フィルムサンプルについて、延伸軸方向に対して45度傾けた場合の光の透過率と-45度傾けた場合の光の透過率を測定して、それらの平均値(Y1)を求めた。
上記の「(2)PVAの合成」で使用した重合開始剤をアゾビスイソブチロニトリルに変更したこと以外は実施例1と同様にして、PVA(PVA-2)を得た。そして、PVA-2を用いたこと以外は実施例1と同様にして、PVAフィルムロール及び偏光フィルムロールを製造し、測定及び評価を行った。測定及び評価の結果を表2に示す。なお、PVAの原料及び重合条件を表1に示す。
上記の「(2)PVAの合成」でPVAの重合温度を90℃に変更したこと以外は実施例1と同様にして、PVA(PVA-3)を得た。そして、PVA-3を用いたこと以外は実施例1と同様にして、PVAフィルムロール及び偏光フィルムロールを製造し、測定及び評価を行った。測定及び評価の結果を表2に示す。なお、PVAの原料及び重合条件を表1に示す。
上記の「(1)酢酸ビニルの合成」で使用したエチレンを石油由来のエチレン(エア・リキード工業ガス株式会社製)に変更したこと以外は実施例1と同様にして、PVA(PVA-4)を得た。そして、PVA-4を用いたこと以外は実施例1と同様にして、PVAフィルムロール及び偏光フィルムロールを製造し、測定及び評価を行った。測定及び評価の結果を表2に示す。なお、PVAの原料及び重合条件を表1に示す。
上記の「(3)PVAフィルム及びPVAフィルムロールの製造」で使用したPVAを、
比較例1で得られたPVA-4と実施例1で得られたPVA-1とを質量比1:1で混合したPVAに変更したこと以外は実施例1と同様にして、PVAフィルムロール及び偏光フィルムロールを製造し、測定及び評価を行った。測定及び評価の結果を表2に示す。なお、PVAの原料及び重合条件を表1に示す。
上記の「(2)PVAの合成」で使用するモノマーとして、サトウキビ由来のバイオエチレン(Braskem S.A.製)を、酢酸ビニル100質量部に対して5.7質量部追加し、反応容器内の圧力を0.03MPaGに維持して重合反応を行ったこと以外は実施例1と同様にして、PVA(PVA-5)を得た。そして、PVA-5を用いたこと以外は実施例1と同様にして、PVAフィルムロール及び偏光フィルムロールを製造し、測定及び評価を行った。測定及び評価の結果を表2に示す。なお、PVAの原料及び重合条件を表1に示す。
C3植物であるイネを、アルカリ処理工程、糖化処理工程、エタノール化工程を経て処理することにより、イネ由来のエタノールを得た。このエタノールを、モルデナイトを触媒とした190℃での脱水反応処理を行うことにより、イネ由来のバイオエチレンを製造した。
Claims (19)
- ポリビニルアルコール樹脂(A)を含むポリビニルアルコール樹脂フィルムであり、該ポリビニルアルコール樹脂(A)を構成する全炭素中の炭素14(14C)の存在比率14C/Cが1.0×10-14以上である、ポリビニルアルコール樹脂フィルム。
- 炭素13(13C)の炭素安定同位体比δ13Cが-20‰以上である、請求項1に記載のポリビニルアルコール樹脂フィルム。
- 炭素13(13C)の炭素安定同位体比δ13Cが-20‰未満である、請求項1に記載のポリビニルアルコール樹脂フィルム。
- 前記ポリビニルアルコール樹脂(A)の全部又は一部が、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)である、請求項1~3のいずれかに記載のポリビニルアルコール樹脂フィルム。
- 前記ポリビニルアルコール樹脂(A)がエチレン単位を含有し、前記ポリビニルアルコール樹脂(A)の全単量体単位に対するエチレン単位の含有量が1モル%以上、15モル%未満である、請求項1~4のいずれかに記載のポリビニルアルコール樹脂フィルム。
- 前記ポリビニルアルコール樹脂(A)のけん化度が80モル%以上である、請求項1~5のいずれかに記載のポリビニルアルコール樹脂フィルム。
- 前記ポリビニルアルコール樹脂(A)の重合度が200以上、8,000未満である、請求項1~6のいずれかに記載のポリビニルアルコール樹脂フィルム。
- 前記ポリビニルアルコール樹脂(A)の1,2-グリコール結合の含有量が0.2モル%以上、2.0モル%未満である、請求項1~7のいずれかに記載のポリビニルアルコール樹脂フィルム。
- 前記ポリビニルアルコール樹脂(A)が重合体末端にアルコキシル基を有し、前記ポリビニルアルコール樹脂(A)の全単量体単位に対するアルコキシル基の含有量が0.0005モル%以上、1モル%未満である、請求項1~8のいずれかに記載のポリビニルアルコール樹脂フィルム。
- 請求項1~9のいずれかに記載のポリビニルアルコール樹脂フィルムを用いた光学フィルム。
- 請求項1~9のいずれかに記載のポリビニルアルコール樹脂フィルムを用いた水溶性フィルム。
- 洗剤、農薬、又は殺菌剤を、請求項11に記載の水溶性フィルムにより包装した包装体。
- 全炭素中の炭素14(14C)の存在比率14C/Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、化石燃料由来のエチレン(Bp)のみを由来とするポリビニルアルコール樹脂(Ap)のみを含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法。
- 全炭素中の炭素14(14C)の存在比率14C/Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、該ポリビニルアルコール樹脂フィルムとは異なる他の、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法。
- 炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムについて、炭素13(13C)の炭素安定同位体比δ13Cを測定することにより、生物由来のエチレン(Bb)がC3植物由来のエチレン(Bb)又はC4植物由来のエチレン(Bb)のいずれであるかを判別する、請求項13又は14に記載のポリビニルアルコール樹脂フィルムの判別方法。
- 炭素13の(13C)の炭素安定同位体比δ13Cが-20‰以上である場合に、生物由来のエチレン(Bb)がC4植物由来のエチレン(Bb)であると判別し、前記炭素安定同位体比δ13Cが-20‰未満である場合に、生物由来のエチレン(Bb)がC3植物由来のエチレン(Bb)であると判別する、請求項15に記載のポリビニルアルコール樹脂フィルムの判別方法。
- 炭素13の(13C)の炭素安定同位体比δ13Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、化石燃料由来のエチレン(Bp)のみを由来とするポリビニルアルコール樹脂(Ap)のみを含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法。
- 炭素13の(13C)の炭素安定同位体比δ13Cを測定することにより、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムと、該ポリビニルアルコール樹脂フィルムとは異なる他の、炭素の全部又は一部が生物由来のエチレン(Bb)を由来とするポリビニルアルコール樹脂(Ab)を含むポリビニルアルコール樹脂フィルムとを判別する、ポリビニルアルコール樹脂フィルムの判別方法。
- エチレン(Bb)に、カルボキシ基を有する化合物を反応させることでビニルエステルモノマーを合成し、又は、エチレン(Bb)に、カルボキシ基を有する化合物を反応させることでビニルエステルモノマーを合成し、
得られたビニルエステルモノマーを重合してポリビニルエステルを得、
得られたポリビニルエステルをけん化することで、ポリビニルアルコール樹脂(Ab)を得、
得られたポリビニルアルコール樹脂(Ab)を用いてポリビニルアルコール樹脂フィルムを製造する、ポリビニルアルコール樹脂フィルムの製造方法。
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WO2024181405A1 (ja) * | 2023-02-28 | 2024-09-06 | 三菱ケミカル株式会社 | ポリビニルアルコール系樹脂フィルム、光学フィルム、水溶性フィルム、およびポリビニルアルコール系樹脂組成物 |
WO2024181406A1 (ja) * | 2023-02-28 | 2024-09-06 | 三菱ケミカル株式会社 | ポリビニルアルコール系樹脂フィルム、光学フィルム、水溶性フィルム、およびポリビニルアルコール系樹脂組成物 |
WO2024181404A1 (ja) * | 2023-02-28 | 2024-09-06 | 三菱ケミカル株式会社 | ポリビニルアルコール系樹脂フィルム、光学フィルム、水溶性フィルム、およびポリビニルアルコール系樹脂組成物 |
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JP7072129B1 (ja) | 2022-05-19 |
TW202222857A (zh) | 2022-06-16 |
CN114901734A (zh) | 2022-08-12 |
MX2024004152A (es) | 2024-04-22 |
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KR20220100871A (ko) | 2022-07-18 |
AU2022271454B2 (en) | 2024-05-09 |
MX2023001471A (es) | 2023-03-06 |
AU2022271454A1 (en) | 2023-01-05 |
EP4102224A2 (en) | 2022-12-14 |
TW202311311A (zh) | 2023-03-16 |
CN115322503A (zh) | 2022-11-11 |
US20230073770A1 (en) | 2023-03-09 |
BR122022018252A2 (pt) | 2023-05-09 |
AU2021362389B2 (en) | 2023-06-29 |
KR102573942B1 (ko) | 2023-09-06 |
CA3235327A1 (en) | 2022-04-21 |
EP4071080A4 (en) | 2023-07-05 |
KR20230071770A (ko) | 2023-05-23 |
CA3181661A1 (en) | 2022-04-21 |
TWI829024B (zh) | 2024-01-11 |
JPWO2022080472A1 (ja) | 2022-04-21 |
AU2021362389A1 (en) | 2023-01-05 |
US20220348757A1 (en) | 2022-11-03 |
US12018145B2 (en) | 2024-06-25 |
BR112022018132A2 (pt) | 2023-04-25 |
EP4372017A2 (en) | 2024-05-22 |
EP4102224A3 (en) | 2023-02-22 |
JP2022069481A (ja) | 2022-05-11 |
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