DE202005010717U1 - Identifying element, useful e.g. for marking things and living organisms, comprises an synthetic material, prepared from the regenerating raw materials - Google Patents

Abstract

Identifying element (A), preferably for things and living organisms, comprises a synthetic material, prepared from the regenerating raw materials. Independent claims are also included for: (1) an animal identification marking (preferably ear mark for animals), at least a part, comprising bio based synthetic material; (2) housing for electric and/or electronic construction units comprising biobased synthetic material, which is casted and/or embedded in the electric or electronic construction units, where these cannot be removed without any destruction; and (3) synthetic card (preferably identity (ID)-card or credit card) comprising biobased synthetic material.

Description

The The present invention relates to an identification element, in particular for things and living things made of plastics with a long service life.

Such diverse Identification elements for Things and life of petrochemical plastics and plastic materials such as polyvinyl chloride and / or vinyl resin and / or PET plastic and / or polycarbonate and / or polyurethane and / or Polyethylene and / or polypropylene are used for identification, marking and collection of information. They contain information in writing, Image, magnetic strips and other electronic components for storage of data. The above the entire period of use or lifetime of the identification elements must be preserved.

Examples for identification elements for things and living things are animal ear tags with inscription and if necessary electronic Assemblies, bank cards and credit cards with lettering and chip, Club cards with lettering, picture and chip, door opening cards, key cards for automobiles and hotel rooms, price tags, membership cards of associations, health insurance companies, Schools, universities and colleges, railway tickets, airlines, personnel cards in companies with diverse Functions for identification, access authorization, time recording, Cost entry in canteens and other dining facilities, Badges, Warranty Cards, Calling Cards, Time Attendance Cards, Access control cards. Optionally, plastic cards next to the also printed photos, magnetic strips, chip modules, holograms and Signature fields included. Transponder in miniature sizes in plastic cards and plastic identification elements exchange by inductive Coupling data with a receiver such as immobilizers, radio remote controls, Keyless car systems and the like. Plastic cards are in different Sizes in use and preferably have a layer thickness of 0.3 mm to 1.0 mm. Transparent PVC is the preferred film material for plastic cards.

The ISO 7810/7813 provides information for layout data creation in your leaflet and transmission to Production of plastic cards using the example of credit cards. Plastic card printers For example, the brands Zebra, Datacard, Evolis and Fargo print and produce plastic cards, preferably of PVC with a laminate foil with or without hologram. Plastic cards are made essentially as follows: Foils and foil sheets made of petrochemical plastic material are printed, embossed, laminated and cut in card form.

For the state of the art of plastic cards, for example, refer to the patents DE 32 16 430 . DE 297 03 548 U1 . DE 197 55 568 . DE 197 13 218 and WO 1997 008645.

The EU Regulation 820/97 regulates labeling and registration of cattle, pigs, sheep and goats with ear tags to combat Animal diseases and consumer protection provided by national regulations (for Germany is that the cattle traffic regulation - VVVO) are stocky. So have to the animals after birth for life with animal identification marks reliable and forgery-proof to be marked. Against this background are the high quality requirements to understand such animal identification ear tags made of plastics, because she has a gapless Provide proof of the European way of life of an animal have to and not lost. The wearing times of plastic ear tags are between 6 months for slaughter pigs and about 10 years for dairy cows.

At present, plastics from the group of thermoplastic elastomers (TPE) are used in the prior art for the production of ear tags. TPEs combine the rubber-elastic properties of crosslinked elastomers with the advantages of thermoplastic processability. From the group of thermoplastic elastomers (TPE) thermoplastic polyurethanes (TPU) are preferably used because TPU are particularly resistant to abrasion and excellent aging resistance. TPE plastics such as highly flexible polymer blends based on PE and PP are also used for the production of ear tags. In contrast, ear tags made of metal are rarely used. For the general state of the art of animal ear tags, reference is made to the documents, for example DE 299 29 134 . DE 31 16 972 . EP 754 406 A1 . US 2002 146265 ,

Also Goods and goods are marked with plastic labels (eg price tags) and possibly additionally marked by electronic components, such as for example, with theft labels. This facilitates the capture of the inventory and protects also against unauthorized removal or removal of goods and things.

The object of the present invention is to provide environmentally friendly identification elements, which guarantee a long service life and can also be disposed of largely CO ₂ neutral thermally after their usual period of use. This seemingly contradictory object is solved by the features of the characterizing part of claim 1.

The identification elements according to the invention contain for this purpose plastics which are produced from renewable raw materials. This ensures that the identification elements can be disposed of environmentally friendly after their normal use. Nevertheless, the identification elements according to the invention should not differ in their manner of use from identification elements of the prior art. For example, these identification elements can also be waterproof and flexible, have an abrasion-resistant surface and allow a pleasing appearance. This benefits the environment, as materials derived from plants release only as much CO ₂ after use as they have extracted from the atmosphere during their growth phase. In contrast to fossil raw materials, they are largely CO ₂ -neutral and have a closed material and energy cycle. Added to this is the positive effect on the CO ₂ balance due to the thermal utilization at the end of use. A closely related to natural cycles circular economy with serious environmental benefits is possible. This has the effect of slowing down the greenhouse effect as a result of the currently still increasing CO ₂ emissions. Climate protection measures and the conservation of fossil raw materials are supported by this innovation at the same time. The invention thus also supports the goals of the Kyoto Protocol on international climate protection, which came into force on 16 February 2005. The international agreement obliges signatory states to reduce overall greenhouse gas emissions by at least 5% below 1900 levels during the 2008-2012 commitment period.

Further Embodiments of the invention are disclosed in claims 2 to 18. In to the claims 2 to 7 are made of high quality plastic blends of renewable Raw materials claimed by which is achieved that the identification elements guaranteed over Its useful life of approx. 5 to 10 years can be used without restriction are by putting their properties described below in maintain this time. For this purpose, the claimed bio-based Plastics in the claims 2 to 7 mentioned Additives and additives added. The claims 8 to 10 reveal, by which production methods or steps the identification elements according to the invention can be achieved. additional Variants of the inventions are presented in claims 11 to 18. The claims are 13th up to 15 aimed at animal identification brands. The claim 18 relates on a case for electrical and / or electronic components. Where in the present description the two terms "electrical" and "electronic" understood as synonyms should be. In the claims 17 and 18 will be a plastic card as a special design claimed the invention.

The at first glance seemingly trivial plastic product animal identification mark (sometimes also referred to as an animal ear tag or ear tag), whose production takes place by injection molding, must during the to withstand extreme loads and wear over the entire wearing period entire lifespan of the livestock this forgery-proof and clear mark. Only thermoplastic polyurethane plastics (TPU) as a raw material from the group of thermoplastic elastomers (TPE - dimensionally stable but elastic) have so far the high quality requirements, the legislature for Animal stamps has been met. By using the Animal identification marks according to the invention this should change now.

The used in the production of the animal license plates according to the invention Injection molding includes the plasticizing of the plastic granules with admixture of necessary additives (eg for paint, Laser inscription) and its transfer under high pressure and high speed into the cold mold, in which he by cooling solidified, so that a molded part can be removed from the mold. The melting of the plastic takes place in 4 temperature zones. Of the Feed zone, compression zone, melting zone and nozzle. in this connection the temperature profile must be selected be that on the one hand during the residence time the plastic melt is not thermally damaged, but on the other hand, the polymer melt is so hot that good flow properties given are. In the usual Case can the additives through precise working gravimetric dosing devices automatically with in the feed zone are metered. A variety of reproducible Modifications and optimizations of bio-plastics can therefore carried out on site become. Also in the sprue of the tool must be an optimal temperature be held to the desired To obtain flow and product properties. This is in this several heating zones divided by electronically working ECUs can be tempered to the degree.

An optimal interaction of heated and cooled areas in the tool itself is out crucial for the quality of the blanks. For the final quality of ear tags made of plastic, immediate reworking of the still hot parts by qualified personnel is of great importance, so that they can harden in a dimensionally stable manner during the still plastic phase immediately after shaping.

Cattle ear tags are the most used and longest ear tag. They consist of two permanently labeled (printed or lasered) parts (the so-called plaques), the "official" front (perforated plate) which is positively connected to the back (mandrel plate) after retraction into the ear The mandrel has a hard plastic or metal tip for ease of retraction and anti-counterfeiting protection, which dissolves when attempting to forcibly separate both parts and remains in the pot of the orifice plate. Thus, the tag can not be used a second time. Animal tag tags of the type described are for example in utility model DE 299 20 134 U1 disclosed having a so-called tamper proof effect. It is also conceivable to produce the mandrel from bio-plastics.

mandrel and hole part are made by a special shaping in a solid Distance held in the ear. They are over the entire lifetime the animal either exposed to wind and weather or an aggressive stable atmosphere. You need to the attack of organic and inorganic, especially ammoniacal Compounds, hydrolysis, microorganisms and UV radiation as well withstand the mechanical stresses caused by the animal. About that allowed out The animal identification marks will not be lost or illegible otherwise the animal can no longer be clearly assigned and thus becomes illegal and worthless. The plaques assembled at the ear of the brands at violent strains forces to endure at least 300 N, so they do not readily return can be separated or lost due to material breakage. These requirements are made by the claimed plastics, which are based on renewable raw materials based, fulfilled.

In addition, the animal ear tags according to the invention contain electronic components, for example, individual Data of the animal over to exchange a transponder contactlessly with a computer read. In this way, for example, in cows, the milk yield and the Feed requirements are recorded and influenced.

following become the desired Material properties of plastic ear tags for cattle listed:

Also will be the desired ones below Material properties of plastic ear tags for pigs listed:

The previously listed Material properties can also of animal ear tags based on plastics from renewable sources Raw materials are adhered to by the mentioned additives and / or Additives from the claims be used.

• – Thermoplastische Werkstoffe, die auf natürlichen Polymeren basieren und deren Syntheseleistung von der Natur erbracht werden, beispielsweise Stärke, Gelatine, Lignin, Cellulose
• – Thermoplastische Werkstoffe, die auf natürliche Monomere basieren und biochemisch oder fermentativ polymerisiert werden, beispielsweise Polylactide und deren Copolymere, Polyhydroxyalkonate wie Polyhydroxybuttersäure und deren Copolymere
• – thermoplastische Werkstoffe, die aus Mischungen, Blends und/oder Reaktionsprodukte der vorgenannten Rohstoffgruppen und/oder weiteren Thermoplasten bestehen
• – thermoplastische Polyurthanpolymere, deren Polyolgruppen am Start mindestens teilweise aus natürlichen Polyolen bestehen, beispielsweise aus Sorbitol oder Mannitol
• – Exoxidkunststoffe auf der Basis von natürlichen Ölen und Fetten, vorzugsweise aus natürlichen Fettsäuren mit ungesättigten Doppelbindungen, wie beispielsweise high oleic Leinöl. Leinöl enthält sehr reaktive, mehrfach ungesättigte Fettsäuren wie Linolensäure (57%) und Linolsäure (16%), außerdem noch die einfach ungesättigte Ölsäure (19%).

The animal identification marks and / or plastic cards and / or plastic labels and / or plastic assemblies according to the invention, with and without embedded electronic information carriers, can be produced from the biopolymers listed below:

• - Thermoplastic materials, based on natural polymers and their synthesis performance are provided by nature, such as starch, gelatin, lignin, cellulose
• Thermoplastic materials which are based on natural monomers and polymerized biochemically or by fermentation, for example polylactides and their copolymers, polyhydroxyalkonates such as polyhydroxybutyric acid and copolymers thereof
• - Thermoplastic materials which consist of mixtures, blends and / or reaction products of the aforementioned raw material groups and / or other thermoplastics
• Thermoplastic polyurthane polymers whose polyol groups at the start consist at least partly of natural polyols, for example sorbitol or mannitol
• - Exoxidkunststoffe based on natural oils and fats, preferably from natural fatty acids having unsaturated double bonds, such as high oleic linseed oil. Linseed oil contains very reactive, polyunsaturated fatty acids such as linoleic acid (57%) and linoleic acid (16%), as well as monounsaturated oleic acid (19%).

Starch-based bio-plastics are known as TPS (thermoplastic starch) formulations or blends. According to EP 0 397 819 For example, native starch is mixed with a plasticizer which lowers the melting point of the starch below the decomposition point while adding heat with simultaneous removal of water and converted into a melt-processable, homogeneous mass. For example, from TPS - according to EP 0 542 155 . EP 0 596 437 . EP 0 799 335 . EP 0 906 367 - Made of bio-plastic blends with wide application spectra. For the production of animal identification marks, particularly suitable are starch-based bio-plastic blends having processing properties for injection molding and good aging resistance, described in US Pat US 5,280,055 . US 5,844,023 and US 6,235,816 ,

plastics Cellulose based have long been known. As a thermoplastic Cellulose derivatives are cellulose acetates CA, cellulose propionates CP or CAP and cellulose acetobutyrate CAB proposed. They leave in principle after all for Thermoplastics usual Process, but are in their material properties no thermoplastic elastomers. The properties of CA, CAB and CP can be determined by the content and type of plasticizer for the Use as animal identification marks vary according to the invention. Compounds with other elasticizing plastic components such as For example, EVAC optimize thermoplastic cellulose derivatives and lead to the required properties.

at the identification elements according to the invention can also technically available Bioplastics containing biochemically thermoplastic Bio-plastics such as polylactides (PLA, PLLA) and polyhydroxyalkonates such as polyhydroxybutyric acid and their copolyesters can be prepared from the group of biopolyesters / polyglycolic acids are.

Lactic acid polylactides (PLA, PLLA) are thermoplastic, aliphatic polyesters available from starchy raw materials through the intermediates glucose and lactic acid. The production takes place by ring-opening polymerization of D-lactide, or L-lactide or D- and L-lactides produced by fermentation from renewable resources such as cereals. Pure poly-L-lactides (PLLA) are hardly biodegradable. Only above the glass transition temperature of 55 ° C PLLA hydrolyzed autocatalytically to lactic acid. These conditions do not apply to animal identification marks. The plastic properties of PLA can be adjusted by copolymers and variations in the polymerization conditions in wide ranges according to the respective requirement criteria.

PLA plastic parts are bio-plastics with a long life, only with others Property criteria than those for thermoplastic elastomers - TPE - required. It shows, however, that the requirement of long-term use of these proposed bio-plastics from renewable raw materials is reachable.

epoxidized fatty acid derivatives to lead to natural Epoxy plastics with high flexibility and weather resistance. For animal identification brands can by subsequent reactions at the contact points of the mandrel and perforated plates this insoluble be connected to each other. Films and molded parts made of native epoxy resins are tough elastic, transparent, (gen) toxic harmless and very high-resistance materials. They are suitable u.a. For Special foils and adhesives in the native area, for the production of animal identification tags for the identification of animals and as a housing for electronic and optical identification elements. Counterfeit security of these animal identification brands You can achieve that by opening and removing the mark electronically the implanted code is deleted or adjusted and with the plain text code and / or clear text print no longer matches. Thus, an illegal removal of the mark is conclusive.

The aforementioned bio-plastics can contain other additives that have the utility properties and Duration, for example UV stabilizers such as substituted ones Benzophenone, salicylic acid ester or hydroxyphenylbenzotriazoles and, for example, material protection components such as biocides, bactericides, preservatives and fungicides against Microbial attack, as well as repellents as bite protection.

The Inventive identification elements from bio-based plastics for humans comprises the group identity cards, loyalty cards, bank cards, credit cards, club cards, Insurance cards, badges, access cards, personalized Door Opening Cards and key fob.

The Inventive identification elements from bio-based plastics for items includes the group the price tags and identification labels, security labels, Information tags and signs, warranty cards, door opening cards and thing-connected chip packages like them, for example at a garbage bin are attached for identification.

The Inventive identification elements from bio-based plastics for animals are the official ones Animal stamps for the identification and registration of bovine animals, swine, Sheep and goats and to fight animal diseases and consumer protection. Inventive further Identification system for Animals are rings, collars, Pendant, Badges and other signs associated with the animal and labeling and information provision.

All Inventive identification elements can optionally equipped be with photos, biometric data, magnetic stripe, chip modules, Transponders, holograms and signature fields.

suitable based on biological raw materials for production of identification elements for Things and creatures such as animal identification marks for official animal identification, identity cards, bank cards, price tags and door opening cards are starch plastics and polymer blends based on the renewable raw material Strength, Polylactides from natural, agricultural raw materials such as sugar, polyhydroxyalkonates such as polyhydroxybutyric acid made from carbohydrates biotechnologically and modified Cellulose derivatives such as cellulose esters, polyurethane plastics, the natural polyol groups Contain epoxy resins from natural fatty acids like Linseed oil, soybean oil and the oil the dragon head plant.

The identification elements according to the invention essentially contain materials which originate from renewable raw materials. The image of plastic products can be substantially upgraded by using bio-plastics. In agricultural applications such as animal stamps, the future prospects for all concerned are improving from the raw material producer (farmer, plastic producer, processor) to the consumer and the environment. Bio-plastic applications that sustainable goals, are ecologically beneficial, resource and climate friendly.

subsequent Examples disclose various compositions and / or mixtures of bio-plastics to which the invention is directed.

example 1

A bio-polymer blend consisting of 38% TPS (Thermoplastic Starch according to EP 0 397 819 prepared), 49% cellulose diacetate (DS = 2.5), 12% BASF Ecoflex polyester and 1% potassium sorbate are compounded and granulated. The granules are processed in the injection molding process to the animal identification mark according to the invention, which has the desired performance properties.

Example 2

A bio-polymer blend consisting of 70% TPS (Thermoplastic Starch according to EP 0 397 819 prepared), 29.2% polyester urethane (Degranil DLN, Bayer AG) and 0.8% salicylic acid is compounded and granulated. The granules are processed in the injection molding process to the animal identification mark according to the invention, which has the desired performance properties.

Example 3

Dracowol EP-10/1 of the manufacturer Dracosa AG is a bio-polymer plastic consisting of an epoxidized fatty acid with an iodine value> 185 and 6-7 oxyran groups, a so-called high oleic linseed oil. The animal identification mark is embedded in the casting process electronic component manufactured. Become a postreaction after joining of the perforated plate and mandrel plate, the two halves glued insoluble.

The Own animal identification marks from the natural epoxy of linseed oil the desired performance characteristics. Clips made of native epoxy resins are viscoelastic, transparent, (gen) toxic harmless and very high-resistance materials.

counterfeit protection These brands will achieve that by opening and removing the mark electronically the implanted code is deleted or adjusted and no longer matches the plain text imprint. This is one illegal removal of the brand evidential.

Example 4

Dracowol EP-10/1 of the manufacturer Dracosa AG is a bio-polymer plastic consisting of an epoxidized fatty acid with an iodine value> 185 and 6 -7 oxyran groups, a so-called high oleic linseed oil. The animal identification mark is produced by casting and a transponder is poured. By a Nachreaktion become after the joining of the perforated plate and mandrel plate, the two halves glued insoluble. The animal identification tags from the natural Epoxy of linseed oil have the desired performance properties.

Example 5

Dracowol EP-10/1 of the manufacturer Dracosa AG is a bio-polymer plastic consisting of an epoxidized fatty acid with an iodine value> 185 and 6-7 oxyran groups, a so-called high oleic linseed oil. The housing for a electronic component is manufactured in the casting process and thereby the transponder in the housing Cast in from the native epoxy resin and permanently bonded into it, so that it is not non-destructive can be removed. The housing from the natural Epoxy of linseed oil are weather resistant and have robust, shock-absorbing performance properties.

Example 6

Dracowol EP-10/1 of the manufacturer Dracosa AG is a bio-polymer plastic consisting of an epoxidized fatty acid with an iodine value> 185 and 6-7 oxyran groups, a so-called high oleic linseed oil. The plastic card based on the native epoxy resin is in Casting produced while a transponder and a printed Cast paper label.

Example 7

A laminated card of Worblex-CP brand cellulose propionate films is made of a transparent cellulose propionate film with a layer thickness of 300 microns and a printed cellulose propionate film having a layer thickness of 500 μm. The laminated card according to the invention consists of bio-based plastics.

Example 8

A laminated card of Worblex-CP brand cellulose propionate films is made of a transparent cellulose propionate film with a layer thickness of 300 microns and a printed cellulose propionate film having a layer thickness of 500 μm and a magnetic stripe on the back. The laminated card consists according to the invention of bio-based Plastics.

Example 9

One CAB (cellulose acetate butyrates) of the type Tenite 565-23 of the manufacturer Eastman with a plasticizer content of 23% is called granules in the Injection molding process for producing the animal ear tags according to the invention used. The animal identification mark according to the invention consists of bio-based plastics and has the desired ones Use properties.

Example 10

One Cellulose triacetate of the type Setilithe 35E of the manufacturer Mazzucchelli is used as granules for the production of animal ear tags by injection molding used. The obtained animal identification marks consist according to the invention of bio-based Plastics and have the desired performance properties.

Example 11

One Cellulose triacetate of the type Plastiloid 30MGP of the manufacturer Mazzucchelli is used as granules for the production of animal ear tags by injection molding used. The obtained animal identification marks consist according to the invention of bio-based Plastics and have the desired performance properties.

Example 12

A Laminated card made of cellulose films, which are produced by the casting process from cellulose triacetate and plasticizers of the TACPHAN brand is obtained by welding with the heat pulse method. The laminated card consists of 3 TACPHAN films of 190 mm thickness, of which the upper one is transparent, the middle one is printed and one Photo contains and the lower one has a magnetic stripe on the back. The laminated Map consists according to the invention of bio-based Plastics.

Example 13

Bio - Flex 219F is a compound of FKUR company and essentially consisting of PLA (polylactide) and a polyester (BASF Ecoflex) for the production of transparent films and soft elastic injection molded articles. Together with the material protection material Preventol (0.3%) were Animal identification marks using the usual injection molding process produced. The animal identification marks according to the invention are based on the bio-plastic polylactide and have the required Use properties.

Example 14

Bio - Flex 482Cf is a compound of the company FKUR and essentially consisting of PLA (polylactide) and a polyester for the production of transparent Films used in the flat film extrusion process together with the Material protection material Preventol (0.25%) were prepared. It two were 400 microns thick sheets are welded into a laminate, the lower sheet was printed. The resulting laminate was in a conventional Cut card format and an inventive identification system obtained using a plastic that is made from renewable Raw materials was produced.

Example 15

One CAB (cellulose acetate butyrates) of the type Cellidor 501-20 from the manufacturer Albis Plastics with a softener content of 20% oil-based as granules for the production of animal ear tags according to the invention by injection molding used. The animal identification mark according to the invention consists of bio-based Plastics and possesses the desired Use properties.

Example 16

Biomer ^® P226 is a polyester from the group of polyhydroxyalkonates, especially a polyhydroxybutyric acid (PHB), for the production of high quality injection molded parts from renewable raw materials. The animal identification stamps for pigs made therefrom have a pleasing appearance, are heat-resistant and waterproof. During the injection molding process, 1 potassium sorbate is added to the liquid-crystalline PHB melt for preventive preservation against microbial attacks during the animal's gestation period.

Claims (18)

Identification element, in particular for things and living beings, characterized in that the identification element contains plastics, which are made from renewable raw materials. Identification element according to claim 1, characterized characterized in that a used plastic polymer at least a polymer component based on renewable resources based. Identification element according to one of the preceding Claims, characterized in that the renewable resources following Substances contains: Strength, Gelatine, lignin, cellulose, oils, Fats, fatty acid derivatives like an epoxidized fatty acid, Polyurethane with natural Polyol components, derivatives of the aforementioned substances and / or mixtures from that. Identification element according to one of the preceding Claims, characterized in that the plastic polymer or a corresponding Plastic blend on natural Monomers based and available is by biochemical polymerization such as polylactides, as well as their Copolymers and / or fermentatively produced polyesters such as polyhydroxyalkonates and thermoplastics. Identification element according to one of the preceding Claims, thereby in that the plastic polymer or the plastic blend Strength, in particular thermoplastic starch contains and / or a cellulose acetate, propionate and / or butyrate, and / or cellulose ester in the form of a mixed ester, in its preparation as an esterification component an acid mixture, containing at least two of the following carboxylic acids used becomes: - Acetic acid - Propanoic acid - butyric acid - valeric acid Identification element according to one of the preceding Claims, characterized in that the plastic polymer or the plastic blend contains at least one renewable raw materials and at least one more Component, such as an additive, additive or filler, such as a plasticizer, a stabilizer, an anti-flame agent, and / or at least one other biopolymer, such as a cellulose ester, cellulose, polyhydroxybutyric, a hydrophobic protein, polyvinyl alcohol, gelatin, zein, polysaccharide, Polylactides, polyvinyl acetate, polyacrylate, a sugar alcohol, shellac, Casein, a fatty acid derivative, Plant fibers, lecithin or chitosan. Identification element according to one of the preceding Claims, characterized in that the plastic polymer or the plastic blend at least partially based on renewable raw materials as well as at least one further component, such as fibers and / or fillers such as chalk, pigments and pigment pastes, titanium dioxide, kaolin, lime, Repellents as anti-seizure and / or other auxiliaries such as anti-aging agents against photooxidation and hydrolysis, preservatives, biocides, Fungicides, stabilizers, UV protection, antistatic agents, and / or the Surface structure and properties changing Aids and / or coatings contains. Identification element according to one of the preceding Claims, characterized in that the identification element or parts available from it are by injection molding a plastic polymer or a A plastic-polymer mixture as defined in any one of claims 1 to 7th Identification element according to one of the preceding Claims, characterized in that the identification element or parts available from it are by laminating films from at least two layers, wherein at least one layer of a bio-based plastic polymer or a plastic-polymer mixture defined in any one of claims 1 to 7, contains. Identification element according to one of the preceding Claims, characterized in that the identification element or parts available from it are by means of casting films and / or moldings that are bio-based Plastic polymer or a polymer mixture contains defined in one of the claims 1 to 7. Identification element according to one of the preceding Claims, characterized in that the identification element optical and / or has electronic information stored in or on the Identification element are provided. Identification element according to claim 11, characterized in that the information is read without contact and / or are electronically detectable. Animal tag, in particular ear tag for animals, characterized in that at least parts of the animal identification mark bio-based plastics according to any one of the preceding claims. Animal identification mark according to claim 13, characterized characterized in that an anti-counterfeiting security The brand is reachable by the brand an electronic code contains the when opening and removing the mark of the electronically implanted code deleted or is adjusted and no longer matches the plain text code, and so an illegal removal of the mark is preventable. Animal identification tag according to claim 13 or 14, characterized in that the mark contains two tags, the unsolvable when using the trademark connected to each other, and the one bio-based plastic according to one of the claims 1 to 7 included. casing for electrical and / or electronic components, characterized in that the Housing bio-based Plastics according to one of the claims 1 to 7 contains and in which an electrical or electronic component is cast and / or embedded, which are not indestructible removable is. Plastic card, especially ID card, credit card or the like, characterized in that the card is bio-based Plastics according to one of the claims 1 to 7 contains. Plastic card according to claim 18, characterized that a forgery security The card is accessible by the card an electronic code contains the fake attempt and / or illegal use of the card of the electronically implanted Code deleted or is adjusted and no longer matches the plain text code and thus an illegal use of the card is preventable.