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Green Dot Bioplastics Inc
Terratek® BD4800
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Bio-based, Biodegradable, Sustainable
Density:
1270.0 - 1270.0 kg/m³
Terratek® BD4800 resins are a proprietary blend of bio fillers, natural and synthetic biodegradable polymers. The resins are made with ingredients which pass industry standards for composting.
Green Dot Bioplastics Inc
Terratek® NF3050
Polymer Name:
Polypropylene (unspecified)
Labeling Claims:
Bio-based, Contains PCR Resin, Sustainable, Recycled, Biodegradable
Processing Methods:
Injection Molding
Chemical Family:
Polypropylenes (PP), Polyolefins
Terratek® NF3050 is a proprietary blend of natural fiber and reprocessed polypropylene for injection molding applications. NF3050 contains 15% natural fiber by weight.
Green Dot Bioplastics Inc
Terratek® FX1515
Polymer Name:
Thermoplastic Elastomer (unspecified)
Labeling Claims:
Bio-based, Environmentally Friendly, Plant-Based, Sustainable, Biodegradable
Processing Methods:
Injection Molding
Density:
1220.0 - 1220.0 kg/m³
Terratek® FX1515 is a unique elastomeric bioplastic with a diverse range of potential applications.
Green Dot Bioplastics Inc
Terratek® BD4100
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Bio-based, Biodegradable, Sustainable
Density:
1240.2 - 1240.2 kg/m³
Terratek® BD4100 resins are a proprietary blend of bio fillers, natural and synthetic biodegradable polymers. The resins are made with ingredients which pass industry standards for composting.
Green Dot Bioplastics Inc
Terratek® SC50
Polymer Name:
TPS/PP Alloy
Labeling Claims:
From Renewable Resources, Biodegradable, Bio-based, Environmentally Friendly, Sustainable
Processing Methods:
Injection Molding, Profile Extrusion, Extrusion
Density:
1096.0 - 1096.0 kg/m³
Tensile Strength:
28.75886 - 28.75886 MPa
Terratek® SC50 is a proprietary blend of wheat starch and polypropylene for injection molding applications. SC 50 contains 50% wheat starch by weight, however, a range of properties can be achieved by altering the starch to plastic ratio and by the inclusion or admission of other additives. Formulations containing anywhere from 30% to 65% starch are available upon request.
Green Dot Bioplastics Inc
Terratek® WC200180
Polymer Name:
Polyamide (unspecified)
Chemical Family:
Polyamides
Reinforcement Material:
Wood Fiber
Labeling Claims:
Bio-based, Sustainable, Biodegradable
Processing Methods:
Injection Molding, Profile Extrusion, Extrusion
Density:
1190.0 - 1190.0 kg/m³
Terratek® WC200180 is a proprietary blend of wood fiber and nylon for injection molding applications.
Danimer Scientific
Danimer 1927
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Bio-based, Plant-Based, Sustainable, Biodegradable
Processing Methods:
Blown Film Extrusion, Film Extrusion, Extrusion
Danimer 1927 is Danimer Scientific’s compostable resin that is manufactured from partially bio-based materials using Danimer’s proprietary reactive extrusion process. Danimer 1927 has been designed to meet the ASTM D6400 standard of compostability.
Green Dot Bioplastics Inc
Terratek® SC200041
Polymer Name:
TPS/PE Alloy
Labeling Claims:
From Renewable Resources, Biodegradable, Bio-based, Environmentally Friendly, Sustainable
Processing Methods:
Injection Molding, Profile Extrusion, Extrusion
Density:
1091.0 - 1091.0 kg/m³
Tensile Strength:
24.15 - 24.15 MPa
Danimer Scientific
Danimer 2038
Applications:
Food & Beverage Packaging, Housewares, Packaging
Product Families:
Polyesters & Copolyesters, Biodegradable Polymers, Engineering & Specialty Polymers
Chemical Family:
Polyesters, Polyhydroxyalkanoates (PHA)
Polymer Name:
Polyhydroxyalkanoate (PHA)
End Uses:
Kitchenware, Food Packaging
Danimer 2038 resin is a bio-based resin designed for injection molding applications and is produced using Danimer’s proprietary reactive extrusion process. This resin is suitable for a range of injection molding applications such as cutlery, food packaging, & single serve coffee pods.
Green Dot Bioplastics Inc
Terratek® FX1504
Polymer Name:
Thermoplastic Elastomer (unspecified)
Labeling Claims:
Bio-based, Environmentally Friendly, Plant-Based, Sustainable, Biodegradable
Processing Methods:
Injection Molding
Density:
1230.0 - 1230.0 kg/m³
Green Dot Bioplastics Inc
Terratek® WC200300
Polymer Name:
Polypropylene (unspecified)
Chemical Family:
Polyolefins, Polypropylenes (PP)
Reinforcement Material:
Wood Fiber
Labeling Claims:
Contains PCR Resin, Recycled, Bio-based, Sustainable, Biodegradable
Processing Methods:
Injection Molding
Density:
1010.0 - 1010.0 kg/m³
Terratek® WC200300 is a proprietary blend of pine wood fiber and reprocessed polypropylene for injection molding applications. WC200300 contains 30% wood fiber by weight.
Green Dot Bioplastics Inc
Terratek® WC200122
Polymer Name:
Polypropylene (unspecified)
Chemical Family:
Polypropylenes (PP), Polyolefins
Reinforcement Material:
Wood Fiber
Labeling Claims:
Bio-based, Sustainable, Biodegradable
Processing Methods:
Injection Molding, Profile Extrusion, Extrusion
Density:
937.9 - 937.9 kg/m³
Terratek® WC200122 is a proprietary blend of maple wood fiber and polypropylene for injection molding applications. WC200122 contains 15% wood fiber by weight.
Coffeefrom
Coffeefrom® Bio
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
From Renewable Resources, Food Contact Acceptable, Sustainable, Biodegradable, Organic, Environmentally Friendly
Processing Methods:
Injection Molding, Extrusion
Density:
1350.0 - 1350.0 kg/m³
Our first material, 100% biodegradable, consists of coffee grounds in variable percentage and PLA. A bio-based and renewable material.
Green Dot Bioplastics Inc
Terratek® WC200118
Polymer Name:
Polypropylene (unspecified)
Chemical Family:
Polypropylenes (PP), Polyolefins
Reinforcement Material:
Wood Fiber
Labeling Claims:
Bio-based, Sustainable, Biodegradable
Processing Methods:
Injection Molding, Profile Extrusion, Extrusion
Density:
1003.0 - 1003.0 kg/m³
Terratek® WC200118 is a proprietary blend of maple wood fiber and polypropylene for injection molding applications. WC200118 contains 30% wood fiber by weight.
Danimer Scientific
Danimer 15120
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Bio-based, Plant-Based, Food Contact Acceptable, Sustainable, Biodegradable
Processing Methods:
Injection Molding
Density:
1370.0 - 1370.0 kg/m³
Danimer 15120 resin is a bio-based resin that meets the ASTM D-6400 standard for compostability and is designed for injection molding applications. This material is produced through Danimer Scientific’s reactive extrusion process. The resin is suitable for applications in which high heat resistance is required and can be processed on conventional equipment.
Danimer Scientific
Nodax® 2194
Polymer Name:
Polyhydroxyalkanoate (PHA)
Labeling Claims:
Sustainable, Bio-based, Biodegradable, Plant-Based
Processing Methods:
Thermoforming
Nodax® 2194 is a bio-based resin designed for thermoforming applications and is produced using Danimer’s proprietary reactive extrusion process.
Danimer Scientific
Danimer 15120-UP
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Bio-based, Plant-Based, Food Contact Acceptable, Sustainable, Biodegradable
Processing Methods:
Injection Molding
Density:
1450.0 - 1450.0 kg/m³
Danimer 15120-UP resin is a bio-based resin that meets the ASTMD 6400 standard for compostability and is designed for injection molding applications. This material is produced through Danimer Scientific’s reactive extrusion process. The resin is suitable for applications in which medium heat resistance is required and can be processed on conventional equipment.
Green Dot Bioplastics Inc
Terratek® WC200112
Polymer Name:
Polypropylene (unspecified)
Chemical Family:
Polypropylenes (PP), Polyolefins
Reinforcement Material:
Wood Fiber
Labeling Claims:
Bio-based, Sustainable, Biodegradable
Processing Methods:
Injection Molding, Profile Extrusion, Extrusion
Density:
937.9 - 937.9 kg/m³
Terratek® WC200112 is a proprietary blend of pine wood fiber and polypropylene for injection molding applications. WC200112 contains 15% wood fiber by weight.
Green Dot Bioplastics Inc
Terratek® BD4015
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Bio-based, Biodegradable, Sustainable
Density:
1300.0 - 1300.0 kg/m³
Terratek®BD4015 resins are a proprietary blend of natural and synthetic biodegradable polymers. The resins are made with ingredients which pass industry standards for composting. By altering the ratio of the natural to synthetic biodegradable polymers, a wide range of properties can be generated
Green Dot Bioplastics Inc
Terratek® CC200515
Polymer Name:
Polyethylene (unspecified)
Chemical Family:
Polyethylenes, Polyolefins
Reinforcement Material:
Corn Cob Fiber
Fillers Included:
Corn Cob Fiber
Labeling Claims:
Low Carbon Footprint (PCF), Sustainable, Biodegradable, Bio-based
Danimer Scientific
Danimer 2759
Polymer Name:
Polyhydroxyalkanoate (PHA)
Labeling Claims:
Bio-based, Plant-Based, Sustainable, Biodegradable
Processing Methods:
Cast Film Extrusion, Blown Film Extrusion, Film Extrusion, Extrusion
Danimer 2759 is a Nodax® PHA based resin designed for cast film or blown film applications and is produced using Danimer’s proprietary reactive extrusion process. This resin is suitable for a range of film applications such as food packaging, shopping bags, produce bags, garbage bags and T-shirt bags.
Green Dot Bioplastics Inc
Terratek® BD2114
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Bio-based, Biodegradable, Sustainable
Danimer Scientific
Danimer 2688
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Plant-Based, Sustainable, Bio-based, Biodegradable
Processing Methods:
Injection Molding
Danimer 2688 is a bio-based resin designed for injection molding applications and is produced using Danimer’s proprietary reactive extrusion process.
Biofiber Tech Sweden
FibraQ®
Polymer Name:
Polyethylene (unspecified)
Chemical Family:
Polyolefins, Polyethylenes
Reinforcement Material:
Other Reinforcement Material, Wood Fiber
Reinforcement Form:
Other Reinforcement Forms
Compatible Polymers & Resins:
Polyethylenes (PE), Polystyrenes (PS), Polypropylenes (PP)
Processing Methods:
Thermoforming, Injection Molding
FibraQ® is a surface-treated wood fiber for plastic injection molding. With our patented technology our product can help companies to reach their climate goals by replacing more than half of the plastic with natural material in products ranging from car interiors, electronics, furniture, toys, lifestyle products, etc.
Rodenburg Biopolymers
Solanyl® C1203
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Bio-based, Biodegradable
Solanyl® C1203 consists of a smart series of biobased and biodegradable end compounds, suitable for direct conversion by the various known techniques. It has a “natural” look and feel.
Eurothane
Eurothane 185 ACCE
Polymer Name:
Polycaprolactone (PCL)
Labeling Claims:
Biodegradable
Density:
1180.0 - 1180.0 kg/m³
Eurothane 185 ACCE with high mechanical strength and abrasion resistance has increased resistance to hydrolysis and improved low temperature flexibility. Swelling in oils, greases and solvents is minimal. With excellent low compression set, these products are used in automotive and heavy-duty engineering applications.
Novamont
Mater-Bi EF04P
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Blown Film Extrusion, Film Extrusion, Extrusion
Labeling Claims:
Heavy Metal-free, Recyclable, Biodegradable
Density:
1270.0 - 1270.0 kg/m³
Mater-Bi EF04P are certified according to the main European and international standards by certification bodies. The Mater-Bi has characteristics and properties of use very similar to traditional plastics but is both biodegradable and compostable in accordance with European standard EN 13432 , the most important technical reference for material manufacturers, public authorities , composters, certifiers and consumers.
Minima
Minima GP300
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Bisphenol A-free, Phthalates-free, Biodegradable, Plasticizer-free
Processing Methods:
Injection Molding
Density:
1450.0 - 1450.0 kg/m³
Minima GP300 is a highly versatile certified compostable resin with excellent mechanical properties for injection molded products such as compostable cutlery, compostable coffee stirrers and other consumer products.
Hycail
Hycail® HM 1011
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Biodegradable
Density:
1240.0 - 1240.0 kg/m³
Hycail® HM 1011 is transparent clear general purpose polylactic acid. Possesses excellent oxidation-, color- and molecular weight stability in the melt. It is based on renewable monomers. All components are based on non-GM sources. Used for sheet and film extrusion, thermo-forming, injection molding and film blowing.
Rodenburg Biopolymers
Solanyl® C1001
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Bio-based, Biodegradable
Solanyl® C1001 consists of a smart series of biobased and biodegradable end compounds, suitable for direct conversion by the various known techniques. It has a “natural” look and feel.
Gianeco
Gianeco PLA FILAMENT polylactic acid
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Biodegradable, Contains PCR Resin, Recycled
Processing Methods:
Fibers Extrusion, 3D Printing, Injection Molding, Extrusion
Gianeco PLA FILAMENT polylactic acid is used in extrusion, injection, fiber, 3D printing, filament and thermoforming.
Wittenburg BV
Cawiton® Bio 3200
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Bio-based, Biodegradable
Cawiton® Bio 3200 is a PLA-starch for 3D printing applications.
Depestele
LINCORE® PLA FF P2 40 400
Applications:
Other Parts & Components, Other Building Envelope & Roofing Applications, Other Building Materials
Product Families:
Polyesters & Copolyesters, Biodegradable Polymers, Engineering & Specialty Polymers
Chemical Family:
Polylactic Acid (PLA), Polyesters
Polymer Name:
Polylactic Acid (PLA)
End Uses:
Automotive Interior Parts, Automotive Exterior Parts, Sporting Goods
LINCORE® PLA FF P2 40 400 is a fabric made of LINCORE® roving (commingled flax and PLA filaments). Consolidation is done by heating above melting temperature of PLA matric (170°C-200°C) and applying a low pressure (1-30 bars), before a cooling step under pressure.The molding can be realized by diaphragm (1 to 8 bars)- Thermo compression (10 to 200 bars) - Sandwich thermo compression (1 to 5 bars).
Plantic Technologies Limited
PLANTIC™ EF
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Thermoforming
Labeling Claims:
Biodegradable
PLANTIC™ EF is High Barrier packaging material for a range of flex/flex applications
Cardia Bioplastics
Cardia Compostable™ B-F
Polymer Name:
TPS/Polyester Alloy
Additives Included:
Anti-Blocking Agent, Slip Agent, Plasticizer (Unspecified)
Labeling Claims:
Biodegradable
Processing Methods:
Film Extrusion
Density:
1200.0 - 1200.0 kg/m³
Cardia Compostable™ B-F is a biodegradable and compostable resin based on a blend of thermoplastic starch (TPS), aliphatic polyesters and natural plasticizers. This grade of resin is compatibilised to offer a high level of mechanical strength, outstanding elongation properties and toughness. The resin is based on corn starch which is a renewable material.Cardia Compostable B-F resin is certified biodegradable during composting in professionally managed composting facilities. Complies with International Standard ISO16929, ISO 14855 Certified compostable for blown film applications up to 120 microns. Cardia Compostable B-F complies with: European Standard EN13432, USA Standard ASTM 6400, Australian Standard AS 4736 and Japanese "GreenPla" Standard Chinese Environmental Labeling. Cardia Compostable B-F is a completely biodegradable polymer suitable for the manufacturing of film-type products. It can be directly used in the film blowing process. It does not contain any non-degradable polymers such as PE, PP, PS and PVC. Independent university testing shows that after biodegradation Cardia Compostable B-F does not leave any harmful residues.This film grade has been evaluated for compostability in accordance with international standard ISO 16929 (2002-11- 01) "Plastics — Determination of the Degree of Disintegration of Plastic Materials under Defined Composting Conditions in a Pilot Scale Test". According to the European certification scheme for biodegradable materials, Performance Standard EN 13432, the pass threshold for this test is 90% of the material passing through a 2 mm sieve after the 12 week test period.The testing shows that the plastic film samples used in this test are completely compostable as demonstrated by their 100% disintegration after 3 months and > 90% mineralization in less than 6 months. In the laboratory scale composting test according to ISO 14855: 1999 Cardia Compostable B-F film grade resin reached 90% biodegradation relative to cellulose reference material and meets the biodegradability requirement specified in the EN 13432 standard.Application Examples Compostable bags Shopping bags/Check-out bags Garbage bags Leaf litter bags Green bin liners Produce and meat liners Overwrap Packaging Mulch film Breathable film.
BiologiQ
BioBlend® BC 27152
Polymer Name:
TPS/PBAT Alloy
Labeling Claims:
Food Contact Acceptable, Biodegradable, Bio-based
Processing Methods:
Extrusion, Blown Film Extrusion, Film Extrusion
Flexural Modulus:
310.0 - 310.0 MPa
• One of the BioBlend® BC Biodegradable/Compostable Resins designed for mulch films.• Made from 50% annually renewable agricultural resources and PBAT.• BioBlend® BC 27152 is supplied in pellet form, fully compounded.
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