WO1997048764A1 - Biologisch abbaubarer werkstoff, bestehend im wesentlichen aus oder auf basis thermoplastischer stärke - Google Patents
Biologisch abbaubarer werkstoff, bestehend im wesentlichen aus oder auf basis thermoplastischer stärke Download PDFInfo
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- WO1997048764A1 WO1997048764A1 PCT/IB1997/000749 IB9700749W WO9748764A1 WO 1997048764 A1 WO1997048764 A1 WO 1997048764A1 IB 9700749 W IB9700749 W IB 9700749W WO 9748764 A1 WO9748764 A1 WO 9748764A1
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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
- C08L3/00—Compositions of starch, amylose or amylopectin or of their derivatives or degradation products
- C08L3/02—Starch; Degradation products thereof, e.g. dextrin
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B12/00—Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material
- F42B12/72—Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the material
- F42B12/76—Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the material of the casing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B27/00—Layered products comprising a layer of synthetic resin
- B32B27/06—Layered products comprising a layer of synthetic resin as the main or only constituent of a layer, which is next to another layer of the same or of a different material
- B32B27/10—Layered products comprising a layer of synthetic resin as the main or only constituent of a layer, which is next to another layer of the same or of a different material of paper or cardboard
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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
- C08J3/00—Processes of treating or compounding macromolecular substances
- C08J3/005—Processes for mixing polymers
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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
- C08L3/00—Compositions of starch, amylose or amylopectin or of their derivatives or degradation products
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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
- C08L71/00—Compositions of polyethers obtained by reactions forming an ether link in the main chain; Compositions of derivatives of such polymers
- C08L71/02—Polyalkylene oxides
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B5/00—Cartridge ammunition, e.g. separately-loaded propellant charges
- F42B5/26—Cartridge cases
- F42B5/30—Cartridge cases of plastics, i.e. the cartridge-case tube is of plastics
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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
- C08L2201/00—Properties
- C08L2201/06—Biodegradable
Definitions
- Biodegradable material consisting essentially of or based on thermoplastic starch
- the present invention relates to a biodegradable, polymeric material consisting essentially of or based on thermoplastic starch, a polymer mixture containing thermoplastic starch, a method for producing a biodegradable material, a method for producing a polymer mixture, and uses of the biodegradable material and the polymer mixtures containing thermoplastic starch.
- Biopolymers based on renewable raw materials which are suitable for the production of biodegradable materials - BAW, are largely based on starch and include, in particular, thermoplastic starch, as well as polymer mixtures made of thermoplastic starch and other degradable polymer components such as polylactic acid, Polyvinyl alcohol, polycaprolactone, tailor-made copolyesters from aliphatic diols and aliphatic and aromatic dicarboxylic acids as well as degradable polyester amides, which with thermoplastic starch in the water-free melt through ester reactions and / or as polymer combinations, new degradable polymer materials with high Form part of renewable raw materials.
- Other natural additives are additives and plasticizers, such as glycerol and their derivatives, hexavalent sugar alcohols, such as sorbitol and their derivatives.
- EP 397 819 defines for the first time a process for the production of TPS, as well as what is meant by the new starch material, called thermoplastic starch - TPS - and what serious differences, especially in plastic processing technology, have been known for some time. destructured strength.
- thermoplastic starch is produced with the aid of a swelling or plasticizing agent, not only without adding water, but rather using dry or dried starch and / or starch, which is dried by degassing during processing in the extrusion process during the melting phase.
- Starches contain 14% water, potato starch, as much as 18% natural moisture as balancing moisture as native starches.
- thermoplastic starch In contrast, the manufacturing process of the thermoplastic starch is an exothermic process.
- the essentially water-free ( ⁇ 5%) native starch is homogenized in an extrusion process with an additive or plasticizer (eg glycerol, glycerol acetate, sorbitol), which lowers the melting temperature of the starch and by adding mechanical energy and Heat melted in a temperature range of 120 - 220 ° C.
- the thermoplastic starch is free of crystalline components, at least the crystalline components in TPS are less than 5%, the crystalline components remaining very low.
- the process parameters produce a permanent rearrangement of the molecular structure to thermoplastic starch, which practically no longer comprises any crystalline components and, unlike destructured starch, no longer recrystallizes.
- destructurized starch In the case of destructurized starch, the crystalline fractions are also low immediately after production, but these increase again when storing destructured starch. This feature is also evident in the glass transition point, which remains at minus 40 ° C. with thermoplastic starch, whereas in comparison it rises again to above 0 ° C. with destructurized starch. For these reasons, destructurized starch and materials or blends based on destructurized starch gradually become relatively brittle during storage, and the stresses contained in the polymer, depending on time and temperature, lead to the material creeping and deforming (memory effect).
- Lagereigen brittle increasingly remains flexible analytical X-ray diffraction X-ray diffraction differentiation of the crystalline and the crystalline fractions
- phase mediators are used for the homogenization of the hydrophilic and polar starch polymer phase and the hydrophobic and non-polar, further polymer phase are used, which are either added or are preferably formed in situ during the preparation of the polymer mixture (for example by transesterification).
- Block copolymers are used as phase mediators. are described in detail in WO 91/16375, EP 0 539 544, US 5 280 055 and EP 0 596 437. These publications also disclose polymer mixtures of the TPS with, for example, cellulose derivatives, aliphatic polyesters, such as PCL, PHB, PHVB, PLA and PVOH.
- thermoplastic blends are technologically produced by coupling the phase interfaces between the less compatible polymers so that the distribution structure of the disperse phase is achieved during processing through the optimal processing window (temperature and shear conditions).
- twin-screw extruders used, for example, for compounding are preferably co-rotating twin-screw extruders with tightly intermeshing screw profiles and have individually temperature-controlled kneading zones.
- twin-screw extruders are used, preferably with eight chambers or zones, which can optionally be expanded to ten zones and have, for example, the following structure:
- Extruder type For example, co-rotating twin screw extruder Screw length process length 32-40L / D
- Zone 2 same as Zone 1 mixing and plasticizing temp. 140 ° C pressure> 1 bar water content 4 - 7%
- Zone 3 same as 1 plastification temp. 180 ° C pressure> 1 bar water content 4 - 7%
- Zone 6 sidefeeder, dosing dosing of further polymers of the additional poly temp. 200 ° C mere such as pressure> 1 bar PCL) water content ⁇ 1%
- Zone 8 discharge zone, if appropriate homogenization and if appropriate vaporization of reaction transesterification water temp. 205-210 ° C.
- thermoplastic starch or mixtures based on thermoplastic starch are essentially based on the example of a TPS / PCL (polycaprolactone) polymer mixture.
- TPS / PCL polycaprolactone
- the processing or extrusion conditions change in the case of different polymer mixtures.
- the example given above is only intended to explain how polymer mixtures based on thermoplastic starch are produced in the prior art.
- thermoplastic starch is produced by conversion from native starch with a largely low-molecular plasticizer or swelling agent becomes.
- the TPS is produced in zones 1 to 4 using the example given above - 7th
- thermoplastic starch thus produced are mixed purely physically or also partially chemically, wherein in the example given above, when the PCL and the TPS are mixed, an esterification or a transesterification reaction takes place, with which the homogenization also includes a chemical reaction .
- low molecular weight additives such as DMSO, butanediol, glycerol, ethylene glycol, propylene glycol, diglyceride, diglycol ether, formamide, have hitherto been used as additives and plasticizers, which lower the melting temperature of the starch and have a sufficient solubility parameter.
- DMF dimethylurea, dimethylacetamide, N-methylacetamide, polyalkenoxide, glycerol mono- or diacetate, sorbitol, sorbitol ester and citric acid are proposed and used.
- PVOH, EVOH and their derivatives as well as urea and urea derivatives are occasionally used.
- the solubility parameter of the plasticizer must lie in the range required in the original patent EP 397 819 so that the function is performed. It is essential in the production of the thermoplastic starch that the water removed is substituted by a plasticizer, so that the decomposition temperature of the starch when converted to thermoplastic starch or thermoplastically processable starch is lowered to such an extent that the mixing in the melt is below the corresponding decomposition temperature of the starch.
- polymers such as polyester amides, aliphatic polyesters and copolyesters, as well as a number of further polymers defined below, can also perform this function.
- TPS thermoplastic starch or TPS
- the TPS does not first have to be produced by conversion from native starch with a low-molecular plasticizer before the further polymer is metered in, but rather directly in one ar ⁇ process by mixing native starch or starch derivatives with the additional preferably biodegradable hydrophobic polymer, the polymer mixture can be produced in the melt under dry conditions, the starch contained therein being thermoplastically processable.
- a low molecular weight plasticizer such as glycerin
- thermoplastic starch as a plasticizer or swelling agent largely responsible for the conversion of the native starch or derivatives thereof in thermoplastic starch at least one hydrophobic, preferably biodegradable polymer.
- Suitable hydrophobic biodegradable polymers have been found to be, in particular, aliphatic polyesters, polyester copolymers with aliphatic and aromatic blocks, polyester amides, polyethylene oxide polymer or polyglycol as well as polyester urethanes and / or mixtures thereof.
- thermoplastic starch does not contain any volatile and / or water-soluble and / or migratable plasticizers or plasticizers are contained, which is the case, for example, if low-molecular plasticizers or swelling agents are used for the conversion of native starch or derivatives thereof to thermoplastic starch. Even in the case where low-molecular plasticizers or swelling agents are still used, their proportion can be reduced to such a low level that the disadvantages mentioned can hardly occur.
- Copolymeric polyesters and polyesteramides in particular show very advantageous improvements in properties of the starch polymer materials, which have a particularly positive effect on the hydrophobic properties.
- the intermolecular coupling to the starch-polymer phase and the homogeneous distribution of the polymer particles influence the physical properties.
- the hydrophobic properties of the starch plastics are significantly increased. Moisture resistance is increased and the tendency towards embrittlement of starch plastics is significantly reduced.
- aliphatic polyesters and polyester urethanes are also suitable for converting the native starch into thermoplastic starch, it being possible at the same time for the polymers mentioned to be used as mixing components for the thermoplastic starch for the production of biodegradable polymer mixtures.
- the following polymers are particularly suitable for mixing with native starch and starch derivatives or thermoplastic starch produced therefrom:
- linear bifunctional alcohols such as, for example, ethylene glycol, hexadiol or preferably butanediol and / or, if appropriate, cycloaliphatic bifunctional 10 -
- Alcohols such as, for example, cyclohexanedimethanol and, if appropriate, small amounts of higher-functional alcohols, such as, for example, 1, 2, 3-propanetriol or neopenthyl glycol, and also from linear bifunctional acids, such as, for example, succinic or adipic acid and / or optionally cycloaliphatic bifunctional acids , such as, for example, cyclohexanedicarboxylic acid and / or optionally aromatic bifunctional acids, such as, for example, terephthalic acid or isophthalic acid or naphthalenedicarboxylic acid and additionally optionally small amounts of higher-functionality acids, such as, for example, trimellitic acid or
- aromatic acids making up no more than 50% by weight, based on all acids.
- the acids can also be used in the form of derivatives, such as, for example, acid chlorides or esters;
- linear bifunctional alcohols such as, for example, ethylene glycol, butanediol, hexanediol, preferably butanediol, and / or optionally cycloaliphatic bifunctional alcohols, such as, for example, cyclohexanedimethanol and additionally against if necessary, small amounts of higher-functional alcohols, such as 1,2,3-propanetriol or neopentyl glycol, and from linear bifunctional acids, such as, for example, succinic acid or adiphic acid and / or optionally cycloaliphatic and / or aromatic bifunctional acids, such as, for example, cyclohexanedicarboxylic acid and Terephthalic acid and, in addition, if appropriate, small amounts of higher-functionality acids, such as, for example, trimellitic acid or
- aliphatic and / or cycloaliphatic bifunctional and additionally optionally higher-functional isocyanates e.g. Tetramethylene diisocyanate, hexamethylene diisocyanate, isophorone diisocyanate
- linear and / or cycloaliphatic bifunctional and / or higher-functional alcohols e.g. Ethylene
- ester content C) and / or D) is at least 75% by weight, based on the sum of C), D) and E).
- an ester fraction from linear bifunctional alcohols such as, for example, ethylene glycol, butanediol, He- xanediol, preferably butanediol, and / or cycloaliphatic bifunctional alcohols, such as, for example, cyclohexanedimethanol and additionally, if appropriate, small amounts of higher-functional alcohols, such as, for example, 1,2,3-propanetriol or neopentyl glycol, and also from linear bifunctional acids, such as in the case of ⁇ for example succinic acid or adipic acid and / or optionally cycloaliphatic bifunctional acids, such as for example cyclohexanedicarboxylic acid and additionally optionally small amounts of higher functional acids, such as trimellitic acid or
- ester fraction F) and / or G) is at least 70% by weight, based on the sum of F), G) and H);
- an ester fraction from linear and / or cycloaliphatic bifunctional alcohols such as, for example, ethylene glycol, hexanediol, butanediol, preferably butanediol, cyclohexanedimethanol, and additionally, if appropriate, small amounts of higher-functional alcohols, for example 1,2,3-propanetriol or neopentyl glycol, as well as from linear and / or cycloaliphatic bifunctional acids, for example succinic acid, adipic acids, cyclohexanedicarboxylic acid, preferably adipic acid and additionally optionally small amounts of higher functional acids, for example trimellitic acid, or
- ester content I) and / or K) is at least 30% by weight, based on the sum of I), K), L) and M).
- Dialcohols such as ethylene glycol, 1,4-butanediol, 1,3-propanediol, 1, 6-hexanediol, diethylene glycol and others. and / or dicarboxylic acid such as oxalic acid, succinic acid, adipic acid and others. also in the form of their respective esters (methyl, ethyl, etc.) and / or hydroxycarboxylic acids and lactones, such as caprolactone and others. and / or amino alcohols, such as ethanolamine, propanolamine etc. and / or cyclic lactams such as ⁇ -caprolactam or lauryl lactam etc.
- dicarboxylic acids such as Adi ⁇ pinic acid, succinic acid etc. and diamines such as hexamethylene diamine, diaminobutane etc.
- both hydroxyl- or acid-terminated polyesters with molecular weights between 200 and 10,000 can be used as the ester-forming component.
- the production conditions of the polymers or polymer mixtures described above can be dispensed with, since their production is best known from the prior art, such as, for example, polyesteramides from the aforementioned EP-0 641 817.
- aliphatic polyesters such as polycaprolactone, polylactic acid, polyhydroxybutyric acid, polyhydroxybenzoic acid, polyhydroxybutyric acid / hydroxivaleric acid copolymers and mixtures thereof.
- Statistical copolyesters of aliphatic and aromatic dicarboxylic acids are also suitable for mixing with TPS, with a proportion, for example of approximately 35-55 mol%, of aromatic acid, such as terephthalic acid, polyalcylenterethalates and polyethylene terephthalates being suitable, for example Have highlighted copolyester for mixing with TPS.
- the above-mentioned hydrophobic biodegradable polymers can be used for converting the native starch or starch derivatives into thermoplastic starch and further to be mixed with the thermoplastic starch thus produced in order to produce a biodegradable material based on TPS.
- additives such as plasticizers, stabilizers, anti-flame agents and other, biodegradable polymers, such as cellulose esters, cellulose acetate, cellulose, polyhydroxybutyric acid, hydrophobic proteins, polyvinyl alcohol, etc., and are based again on the requirements to the polymer mixture to be produced and, of course, also according to the availability of the corresponding components.
- polymers listed below such as gelatin, proteins, zeine, polysaccharides, cellulose derivatives, polylactides, polyvinyl alcohol, polyvinyl acetate, polyacrylates, sugar alcohols, Schell lacquer, casein, fatty acid derivatives, vegetable fibers, lecithin, chitosan, polyester polyurethanes and polyester amides.
- polyester blends consisting of thermoplastic starch, the aliphatic / aromatic polyester proposed according to the invention and, as further components, copolymers selected from ethylene-acrylic acid copolymer and ethylene-vinyl alcohol copolymer.
- Organic fillers obtained from renewable raw materials, such as cellulose fibers, are also particularly suitable as fillers.
- Fibers of plant origin, such as cotton, jute, flax, sisal, hemp and ramie, are particularly suitable for reinforcing materials based on TPS or TPS blends.
- thermoplastic starch proposed according to the invention For the production of the thermoplastic starch proposed according to the invention or of biodegradable materials based on thermoplastic starch, it is essential that when the native starch is mixed with one of the hydrophobic biodegradable polymers proposed according to the invention, the water content is melted the native starch is reduced to less than 1% by weight. This is necessary so that when the polymer used as plasticizer or swelling agent is mixed with the exclusion of water, the ester groups built into molecular chains of the hydrophobic polymer undergo esterification reactions with the native starch, so that the molecular chains reacting in this way form a phase mediator with the starch Allow coupling of the two phases, ie the hydrophilic starch phase with the hydrophobic polymer phase, so as to form a continuous phase.
- the melting point of the native starch is reduced to such an extent when mixed with the plasticizer that molecular decomposition of the starch is prevented.
- the melt has to be dried in order to prevent the formation of destructurized starch. For this reason it is necessary to mix the starch phase with the hydrophobic polymer phase, as described above.
- phase mediator results from the in situ reaction of the starch with the hydrophobic polymer, as mentioned. which on its own can also be referred to as so-called hydrophobic thermoplastic starch.
- This hydrophobic thermoplastic starch has a substantially higher water resistance than the thermoplastic starch known from the prior art, produced using low-molecular plasticizers or swelling agents, such as glycerol or sorbitol, or that Water absorption is much lower.
- This hydrophobic thermoplastic starch produced in this way can serve as an output for further tailor-made polymers by adding further biodegradable, hydrophobic polymers.
- starch derivatives such as starch esters, starch ethers and acid-modified starch are also suitable as raw materials for producing the thermoplastic-reactive starch, with oxidized starches with an increased content of carboxyl groups being particularly reactive.
- the processing or melting temperature during mixing and when producing the thermoplastic starch or the biodegradable material can be between approximately 120 and 260 ° C., preferably 140-210 ° C. So that a perfect conversion of native starch into TPS or hydrophobic TPS is possible, it is necessary to add a proportion of 10-40% by weight, based on the mixture, to the native starch, depending on the hydrophobic polymer used Proportion of the swelling or plasticizing agent, of course, further amounts of the hydrophobic polymer used can be added. The range between 10 - 40% by weight only refers to the amount necessary for the conversion.
- the moisture can even be advantageous to reduce the moisture to significantly below 1% by weight, ie to a value below 0.5% by weight or when mixing the native starch with the hydrophobic biodegradable polymer as plasticizer even less than 0.1% by weight, based on the total weight of the mixture.
- the added plasticizer ensures that the melting point of the starch is reduced in such a way that when the melt is produced to produce the homogeneous mixture, it is not degraded molecularly.
- thermoplastic starch or the biodegradable polymer Add material glycerol, sorbitol or another plasticizer, but this might have effects on the physical or mechanical properties of the material to be produced, which properties can usually be improved if larger amounts of low molecular weight plasticizers are added can be dispensed with.
- the total of 22 examples given here include components which have been used for the production of thermoplastic starch or hydrophobic thermoplastic starch in the sense of plasticizers or swelling agents, as well as additional polymeric mixing partners for thermoplastic starch for the production of Biodegradable polymer mixtures proposed according to the invention, which mixing partners are also hydrophobic biodegradable polymers.
- the tables contain the processing conditions and in particular the water content in the extruder during the production of the polymer mixture, which is consistently ⁇ 0.1% by weight.
- the tables also show preferred uses of the biodegradable polymer materials produced, for example.
- the tables contain only examples and all the components mentioned at the outset are suitable for mixing with starch or thermoplastic starch for the production of Biodegradable materials or polymer mixtures defined according to the invention for technical as well as non-technical applications.
- thermoplastic starch starch + plasticizer ⁇ 0.1%
- polyester 1 BASF ZK 242/108 copolyester from aliphatic
- TIR 2900 - TIR 2908 are polyesteramide products from Bayer, which are characterized below:
- TIR 2900 is a polyester amide with 48.5% by weight ester fraction from adipic acid and 1,4-butanediol and 41.2% by weight amide fraction from polycaprolactam and 10.3% by weight stearic acid, based on the entire batch.
- the product has a relative solution viscosity of 1.29, measured 0.5% in m-cresol.
- TIR 2901 is a polyester amide with 29.8 wt.% Ester content from adipic acid and 1,4-butanediol and 56.1 amide content from polycaprolactam and 14.1 wt.% Stearic acid, based on the entire batch.
- the product has a relative solution viscosity of 1.25, measured 0.5% in m-cresol.
- TIR 2905 is an ester of 58.2% by weight citric acid and 41.8% by weight glycerin with an average molecular weight of approx. 600 g / mol.
- TIR 2906-A is an ester of 48.6% by weight glycerin and 51.4% by weight adipic acid with an average molecular weight of approx. 500 g / mol.
- TIR 2907-A is a polyester amide with 32.3% by weight of ester content from adipic acid and glycerin and 54.1% by weight of amine content from polycaprolactam and 13.6% by weight of stearic acid, based on the entire batch.
- the product has a relative solution viscosity of 2.00, measured 0.5% in m-cresol.
- TIR 2908 is a polyester amide with 42.0 wt.% Ester content from adipic acid and 1.4 butanediol and 58.0 wt.% Amine content from polycaprolactam, based on the entire batch.
- the product was dissolved in 15% caprolactam at 90 ° C, then poured onto a sheet, cooled with dry ice and chopped nert. The material was heated 4x to about 20% in acetone until reflux. The solution was poured into a bucket with vigorous stirring and diluted again with about the same amount of acetone, the precipitate was filtered off with suction and dried at 30-40 ° C. in a vacuum drying cabinet.
- the product has a relative solution viscosity of 2.12, measured 0.5% in m-cresol.
- Injection molded parts, extrudates and foils produced by means of polymer mixtures proposed according to the invention in addition to relatively good material properties, have excellent biodegradability, which is why they are able to make a significant contribution to the acute waste problem.
- foils made from a polymer mixture proposed according to the invention are excellently suitable for a wide variety of applications in agriculture, for example for covering fields, since foils of this type can either be composed after use or else in the field in the ground be plowed over.
- Such polymer mixtures are also suitable for the production of composting bags, composting waste containers, etc.
- containers and bottles can be produced from the polymer mixture proposed according to the invention by means of blow molding.
- the degradation rate can be influenced by the selection of the polymer components.
- the polymer mixtures according to the invention are also suitable for the production of textile products, for example for the production of fibers, monofilaments, flat structures, white fabrics, felts, nonwovens, so-called backsheets, textile composites, flakes, wadding, and also linear structures , such as threads, yarns, ropes, lines etc.
- the polymer mixtures according to the invention are suitable for the Provision of hygiene articles such as diapers, bandages, incontinence products and bed inserts.
- the structure of these hygiene articles has, inter alia, nonwovens, produced from the polymer material according to the invention, since it has very good skin compatibility, is breathable, is water vapor-permeable and at the same time watertight, and yet is completely biodegradable.
- the fibers according to the invention are also suitable for producing filter materials, such as, in particular, cigarette filters.
- a majority of the polymer mixtures proposed according to the invention are also suitable as adhesives or can be used as coatings, for example for the impregnation of textile fabrics . It has been shown that the polymer mixtures which are suitable for these fields of application and are proposed according to the invention are preferably at least partially dissolved and applied in alcoholic solvents and applied. For example, in connection with some experimental examples, it was surprisingly found that the polymer mixtures prepared in this way are soluble in hot alcohol-ethanol mixture. In this case, too, there was a possible use in the sense of a biodegradable adhesive, as a coating or impregnation, which brings about hydrophobic properties and is permeable to water vapor.
- ketones, ethers, halogenated or halogen-free hydrocarbons or esters have also proven to be suitable solvents, preference being given to acetone, ethyl acetate, isopropanol, methanol, dichloromethane, chloroform, tetrahydrofuran, ethanol or toluene - be applied.
- concentration of the solutions according to the invention is between 70% by weight and 1% by weight of polymer, preferably between 50% by weight and 8% by weight of polymer, particularly preferably between 40% by weight and 19% by weight of polymer .
- solutions of compostable adhesives that can be used for bonding can be produced, for example by means of a suitable adhesive device, preferably at temperatures in the order of magnitude between approximately 60-100 ° C.
- a vacuum for example, to accelerate the removal of the solvent or by adding crystallization accelerators, the adhesive process can be accelerated.
- the adhesives according to the invention inter alia, leather, ceramics, wood, cardboard, paper or plastics can be glued.
- thermoplastic starch or the polymer mixtures based on thermoplastic starch which is defined according to the invention, is the production of flexible packaging, consisting of paper and a film made of the material according to the invention, by calendering the paper with the film increased temperature laminated.
- This composite of paper and bioplastic film is easily printable, biodegradable and suitable for the production of flexible packaging in the food and non-food sectors.
- High-quality wallpapers are produced by coating with a PVC plastisol in a screen printing or gravure printing process.
- PVC polyvinyl chloride
- the emissions and environmental problems of products containing PVC are well known.
- Blown or flat films can be produced from the polymer mixtures according to the invention in a layer thickness of 80-120 ⁇ m which is customary for wallpaper coating, which Coatings may contain fillers and other additives, which are bonded to the wallpaper paper by heat sealing in a calendering tool and then, as is known, printed several times.
- folding roads are known, which are used in a variety of ways in addition to the military but also in civilian areas in order to make impassable areas passable.
- Folding lines are usually made of metal materials, rarely plastic. Theoretically, folding roads should be resumed after the exercise or use, but in practice this will not be done because the folding roads are distorted after heavy traffic, especially heavy trucks and armored vehicles, and are therefore unusable for further use.
- folding roads are advantageously made from the proposed, high-strength, organic biodegradable materials.
- compostable articles waterproof be equipped by these articles preferably at temperatures above 60 ° C above 70 C C tet beschich ⁇ means according to the invention proposed Poly.
- the non-waterproof compostable objects can be: cellulose products such as paper or cardboard, textile structures such as fabrics or nonwovens, wood or wood-based materials, starch-containing materials such as starch foam with or without biodegradable polymers as blend partners, foils or Molded parts made of biodegradable materials, leather or Lederwerk ⁇ materials, chitin or products made thereof.
- the coatings according to the invention are also suitable for paper coating.
- the coatings according to the invention can also be used to inhibit corrosion of metals.
- Disposable tableware, storage containers or coffins can also be provided with waterproof coatings.
- the layer thickness of the coating is generally 0.1-20, preferably 0.5-10, in particular 1-5 mm.
- thermoplastically processable starches are also suitable for any other application, such as, for example, also for single-use injection molding products, etc.
Abstract
Description
Claims
Priority Applications (10)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE59707871T DE59707871D1 (de) | 1996-06-20 | 1997-06-20 | Biologisch abbaubarer werkstoff, bestehend aus thermoplastischer stärke und polyesteramid. |
AU30445/97A AU724636B2 (en) | 1996-06-20 | 1997-06-20 | Biodegradable material essentially consisting of, or based on, thermoplastic starch |
AT97925222T ATE221559T1 (de) | 1996-06-20 | 1997-06-20 | Biologisch abbaubarer werkstoff, bestehend aus thermoplastischer stärke und polyesteramid. |
JP10502605A JP2000515566A (ja) | 1996-06-20 | 1997-06-20 | 本質的に熱可塑性澱粉から成る、又は熱可塑性澱粉をベースとする生物学的に分解可能な加工材料 |
CA002258843A CA2258843C (en) | 1996-06-20 | 1997-06-20 | Biodegradable polymeric mixtures based on thermoplastic starch |
DK97925222T DK0906367T3 (da) | 1996-06-20 | 1997-06-20 | Biologisk nedbrydeligt materiale bestående af termoplastisk stivelse og polyesteramid |
EP97925222A EP0906367B1 (de) | 1996-06-20 | 1997-06-20 | Biologisch abbaubarer werkstoff, bestehend aus thermoplastischer stärke und polyesteramid. |
NO985609A NO985609L (no) | 1996-06-20 | 1998-12-01 | Biologisk nedbrytbart materiale bestÕende i det vesentlige av eller pÕ basi |
US09/215,469 US6235815B1 (en) | 1996-06-20 | 1998-12-18 | Biodegradable polymeric mixtures based on thermoplastic starch |
US09/846,463 US6472497B2 (en) | 1996-06-20 | 2001-04-30 | Thermoplastic starch utilizing a biodegradable polymer as melting aid |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE19624641A DE19624641A1 (de) | 1996-06-20 | 1996-06-20 | Biologisch abbaubarer Werkstoff, bestehend im wesentlichen aus oder auf Basis thermoplastischer Stärke |
DE19624641.5 | 1996-06-20 |
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US09/215,469 Continuation US6235815B1 (en) | 1996-06-20 | 1998-12-18 | Biodegradable polymeric mixtures based on thermoplastic starch |
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EP (1) | EP0906367B1 (de) |
JP (1) | JP2000515566A (de) |
KR (1) | KR20000016673A (de) |
CN (1) | CN1091118C (de) |
AT (1) | ATE221559T1 (de) |
AU (1) | AU724636B2 (de) |
CA (1) | CA2258843C (de) |
DE (5) | DE19624641A1 (de) |
DK (1) | DK0906367T3 (de) |
ES (1) | ES2182087T3 (de) |
NO (1) | NO985609L (de) |
PT (1) | PT906367E (de) |
WO (1) | WO1997048764A1 (de) |
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WO1998058798A1 (de) * | 1997-06-20 | 1998-12-30 | Bio-Tec Biologische Naturverpackungen Gmbh & Co. Kg | Tapete bzw. wandbekleidung aufweisend mindestens eine schicht aus biologisch abbaubaren werkstoffen |
WO1998058998A1 (de) * | 1997-06-20 | 1998-12-30 | Bio-Tec Biologische Naturverpackungen Gmbh & Co. Kg | Verschleissartikel in der wehr- bzw. pyrotechnik sowie faltfeststrassen, überfahr- und gehhilfen aus biologisch abbaubaren werkstoffen |
WO2000039212A1 (de) * | 1998-12-23 | 2000-07-06 | Bio-Tec Biologische Naturverpackungen Gmbh & Co. Kg | Biologisch abbaubare polymerwerkstoffe bzw. ternäre polymermischungen auf basis polysaccharid oder polysaccharid-derivat |
JP2003518541A (ja) * | 1999-12-27 | 2003-06-10 | ポリヴァロー、ソシエテ・アン・コマンディトゥ | 熱可塑性澱粉を含有するポリマー組成物及びその製法 |
JP4889899B2 (ja) * | 1999-12-27 | 2012-03-07 | ポリヴァロー、ソシエテ・アン・コマンディトゥ | 熱可塑性澱粉を含有するポリマー組成物及びその製法 |
US8153783B2 (en) | 2001-10-23 | 2012-04-10 | Innogel Ag | Polysaccharide based network and method for the production thereof |
WO2011053131A1 (en) | 2009-10-30 | 2011-05-05 | Stichting Kennis Exploitatie Rb | Starch-based biodegradable polymer; method of manufacture and articles thereof |
Also Published As
Publication number | Publication date |
---|---|
ATE221559T1 (de) | 2002-08-15 |
EP0906367A1 (de) | 1999-04-07 |
DE29710826U1 (de) | 1998-01-08 |
EP0906367B1 (de) | 2002-07-31 |
US6472497B2 (en) | 2002-10-29 |
PT906367E (pt) | 2002-12-31 |
CN1091118C (zh) | 2002-09-18 |
DK0906367T3 (da) | 2002-11-25 |
ES2182087T3 (es) | 2003-03-01 |
CA2258843C (en) | 2005-04-19 |
DE29710829U1 (de) | 1997-11-20 |
JP2000515566A (ja) | 2000-11-21 |
DE29710825U1 (de) | 1998-01-08 |
KR20000016673A (ko) | 2000-03-25 |
CA2258843A1 (en) | 1997-12-24 |
US20010039303A1 (en) | 2001-11-08 |
AU724636B2 (en) | 2000-09-28 |
CN1222171A (zh) | 1999-07-07 |
DE19624641A1 (de) | 1998-01-08 |
NO985609D0 (no) | 1998-12-01 |
DE59707871D1 (de) | 2002-09-05 |
NO985609L (no) | 1998-12-01 |
US6235815B1 (en) | 2001-05-22 |
AU3044597A (en) | 1998-01-07 |
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