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298 Products found in Biodegradable Polymers
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Mitsubishi Chemical Group Corporation
Forzeas™ HA9012
Processing Methods:
Sheet Molding, Compounding
Labeling Claims:
Biodegradable, Bio-based, Food Contact Acceptable, Eco-friendly
Density:
1390.0 - 1390.0 kg/m³
Forzeas™ HA9012 represents a breakthrough in environmentally conscious materials for sheet molding applications. This biodegradable and bio-based compound material has achieved certification from OK compost Home and has 80% or more bio-based carbon content calculated with reference to ASTM D6866 standard. Specifically designed for food contact applications, Forzeas™ HA9012 combines sustainability with versatility, making it a responsible choice for a range of uses.
Mitsubishi Chemical Group Corporation
Forzeas™ HA7004
Processing Methods:
Injection Molding, Compounding
Labeling Claims:
Biodegradable, Bio-based, Food Contact Acceptable, Eco-friendly
Density:
1390.0 - 1390.0 kg/m³
Forzeas™ HA7004 stands as an ideal choice for food contact injection molding applications. Successfully passing the OK compost Home test, this grade aligns with stringent environmental standards and has 80% or more bio-based carbon content calculated with reference to ASTM D6866 standard. This underscores its commitment to sustainability and makes Forzeas™ HA7004 a reliable option for applications where food contact safety is paramount.
Mitsubishi Chemical Group Corporation
BioPBS™ FX85AC
Polymer Name:
Polybutylene Succinate Adipate (PBSA)
Labeling Claims:
Food Contact Acceptable, Bio-based, Biodegradable
Processing Methods:
Extrusion, Extrusion Coating
Density:
1260.0 - 1260.0 kg/m³
BioPBS™ FX85AC is a bio-based polybutylene succinate adipate (PBSA) produced through the polymerization of bio-based succinic acid, 1,4-butanediol, and adipic acid. Similar to LDPE, BioPBS™ is a soft and flexible semi-crystalline polyester with excellent properties that make it well-suited for cast extrusion and extrusion coating applications, including the production of compostable paper cups. FX85AC has been specifically developed for use in home compostable coated paper, catering to frozen and cold beverage applications.
Mitsubishi Chemical Group Corporation
Forzeas™ DF9006
Polymer Name:
Polyester (unspecified)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Profile Extrusion, Extrusion, Cast Film Extrusion
Labeling Claims:
Environmentally Friendly, Biodegradable, Bio-based, Food Contact Acceptable, From Renewable Resources, Recyclable
Forzeas™ DF9006 is certified as OK compost HOME and is a soft polyester with excellent properties suitable for blown and cast films. It is also suitable for food contact applications. Features include good processability in existing LDPE machines and suitability as a sealant layer for flexible packaging as well as for blown film applications such as bags.
Mitsubishi Chemical Group Corporation
BioPBS™ FD72PM/PB
Polymer Name:
Polybutylene Succinate Adipate (PBSA)
Labeling Claims:
Biodegradable
Processing Methods:
Injection Molding
Density:
1240.0 - 1240.0 kg/m³
BioPBS™ FD72PM/PB is a bio-based polybutylene succinate (PBS) produced through the polymerization of bio-based succinic acid and 1,4-butanediol. Similar to LDPE, BioPBS™ is a soft and flexible semi-crystalline polyester with excellent properties that make it suitable for injection molding articles for general purposes. As an essentially bio-based product, it excels in biodegradability and compostability, offering a convenient drop-in solution to achieve better sustainability goals.
Mitsubishi Chemical Group Corporation
Forzeas™ HA9010
Processing Methods:
Sheet Molding, Compounding
Labeling Claims:
Biodegradable, Bio-based, Food Contact Acceptable, Eco-friendly
Density:
1390.0 - 1390.0 kg/m³
Forzeas™ HA9010 represents a biodegradable and bio-based compound material specifically crafted for sheet molding applications. Successfully passing the OK compost Home test, this grade adheres to rigorous environmental standards and has 80% or more bio-based carbon content calculated with reference to ASTM D6866 standard. Tailored for food contact applications, it combines sustainability with versatility, making it a responsible and reliable choice for various uses where food contact safety is essential.
Mitsubishi Chemical Group Corporation
Forzeas™ HA7003
Processing Methods:
Injection Molding, Compounding
Labeling Claims:
Biodegradable, Bio-based, Food Contact Acceptable, Eco-friendly
Density:
1220.0 - 1220.0 kg/m³
Forzeas™ HA7003 is tailor-made for food contact injection molding applications, offering a reliable and sustainable solution. Having successfully passed the OK compost Home test, this grade meets stringent environmental standards and has 90% or more bio-based carbon content calculated with reference to ASTM D6866 standard. This underscores its commitment to high sustainability standards, making it a preferred choice for applications where food contact safety and eco-friendliness are paramount.
Mitsubishi Chemical Group Corporation
SA916N
Polymer Name:
Polyester (unspecified)
Labeling Claims:
Bio-based, Biodegradable
Processing Methods:
Extrusion, Blown Film Extrusion, Film Extrusion, Cast Film Extrusion
Density::
1260.0 - 1260.0 kg/m³
PBST SA916N is designed to be used as a raw material for compostable compounds, especially for film applications. The use of the product as the main raw material for the resin composition allows the product to achieve a high degree of bio-based carbon content as well as high tear and puncture strength. PBST SA916N is for non-food contact applications.
Mitsubishi Chemical Group Corporation
BioPBS™ FZ71PM/PB
Polymer Name:
Polybutylene Succinate (PBS)
Labeling Claims:
Food Contact Acceptable, From Renewable Resources, Bio-based, Biodegradable
Processing Methods:
Injection Molding
Density::
1260.0 - 1260.0 kg/m³
BioPBS™ FZ71PM/PB is bio-based polybutylene succinate (PBS) produced from polymerization of bio-based succinic acid and 1,4-butanediol. Alike LDPE, BioPBS™ is soft and flexible semi-crystalline polyester with excellent properties suitable for injection molding articles for general purpose.
Mitsubishi Chemical Group Corporation
BioPBS™ FZ78TM
Polymer Name:
Polybutylene Succinate (PBS)
Labeling Claims:
Food Contact Acceptable, Bio-based, Biodegradable
Processing Methods:
Fiber Spinning
Density::
1260.0 - 1260.0 kg/m³
BioPBS™ FZ78TM is a bio-based polybutylene succinate (PBS) produced through the polymerization of bio-based succinic acid and 1,4-butanediol. BioPBS™ is a semi-crystalline polyester that offers a combination of softness, flexibility, and favorable properties for fiber applications. With its bio-based nature, this product stands out in terms of biodegradability and compostability, providing a drop-in solution to achieve a better sustainability goal.
Mitsubishi Chemical Group Corporation
Forzeas™ HF9001
Polymer Name:
Polyester (unspecified)
Processing Methods:
Profile Extrusion, Extrusion, Extrusion Blow Molding (EBM)
Labeling Claims:
From Renewable Resources, Environmentally Friendly, Biodegradable, Bio-based, Food Contact Acceptable, Recyclable
Forzeas™ HF9001 has been certified as OK biodegradable MARINE, with a bio-based carbon content estimated at 90% or more according to ASTM D6866. It is designed for food contact applications, featuring good processability in existing general machines and superior heat resistance compared to other general bioplastics. Examples of its applications include straws for drinking.
Mitsubishi Chemical Group Corporation
BioPBS™ FZ91PM/PB
Polymer Name:
Polybutylene Succinate (PBS)
Labeling Claims:
From Renewable Resources, Bio-based, Biodegradable, Food Contact Acceptable
Processing Methods:
Blown Film Extrusion, Cast Film Extrusion
Density::
1260.0 - 1260.0 kg/m³
BioPBS™ FZ91PM/PB is bio-based polybutylene succinate (PBS) produced from polymerization of bio-based succinic acid and 1,4-butanediol. Alike LDPE, BioPBSTM is soft and flexible semi-crystalline polyester with excellent properties suitable for blown and cast film extrusion.
Mitsubishi Chemical Group Corporation
Forzeas™ DF9003
Polymer Name:
Polyester (unspecified)
Processing Methods:
Profile Extrusion, Extrusion, Extrusion Blow Molding (EBM)
Labeling Claims:
From Renewable Resources, Environmentally Friendly, Biodegradable, Bio-based, Food Contact Acceptable, Recyclable
Forzeas™ DF9003 is certified as OK compost HOME, with a bio-based carbon content of 50% or more (estimated according to ASTM D6866). Designed for food contact applications, it has good processability in existing general machines and good rigidity comparable to PP. Examples of its application include straws for drinking.
Mitsubishi Chemical Group Corporation
BioPBS™ FX83AC
Polymer Name:
Polybutylene Succinate Adipate (PBSA)
Labeling Claims:
Food Contact Acceptable, Bio-based, Biodegradable
Processing Methods:
Extrusion, Extrusion Coating
Density::
1260.0 - 1260.0 kg/m³
BioPBS™ FX83AC is a bio-based polybutylene succinate adipate (PBSA) produced through the polymerization of bio-based succinic acid, 1,4-butanediol, and adipic acid. Similar to LDPE, BioPBS™ is a soft and flexible semi-crystalline polyester with outstanding properties that make it suitable for cast extrusion and extrusion coating applications, such as compostable paper cups. FX83AC has been specifically developed for use in home compostable 1-sided coated paper, designed for hot and cold beverage applications.
Mitsubishi Chemical Group Corporation
BioPBS™ FD92PM/PB
Polymer Name:
Polybutylene Succinate Adipate (PBSA)
Labeling Claims:
From Renewable Resources, Bio-based, Biodegradable, Food Contact Acceptable
Processing Methods:
Blown Film Extrusion, Cast Film Extrusion
Density::
1240.0 - 1240.0 kg/m³
BioPBS™ FD92PM/PB is bio-based polybutylene succinate adipate (PBSA) produced from polymerization of bio-based succinic acid, 1,4-butanediol and adipic acid. Alike LDPE, BioPBS™ is soft and flexible semi-crystalline polyester with excellent properties suitable for both blown and cast film extrusion.
Mitsubishi Chemical Group Corporation
Forzeas™ DA9003
Polymer Name:
Polyester (unspecified)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Profile Extrusion, Extrusion, Cast Film Extrusion
Labeling Claims:
From Renewable Resources, Environmentally Friendly, Biodegradable, Bio-based, Food Contact Acceptable, Recyclable
Forzeas™ DA9003 is certified as OK compost HOME. It is a soft polyester with excellent properties suitable for blown, cast film, and profile extrusion and is suitable for food contact applications. Features include good processability in existing LDPE machines, suitability as a sealant layer for flexible packaging, softness similar to LDPE, and suitability for blown film applications such as bags. Application examples include shopping bags, compost bags, sealant layers, and zippers.
Mitsubishi Chemical Group Corporation
Forzeas™ DA9013
Polymer Name:
Polyester (unspecified)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Profile Extrusion, Extrusion, Cast Film Extrusion
Labeling Claims:
From Renewable Resources, Environmentally Friendly, Biodegradable, Bio-based, Food Contact Acceptable, Recyclable
Forceas™ DA9013 is certified as OK compost HOME. It is a soft polyester with excellent properties, suitable for both blown and cast film. Forceas™ DA9013 is also suitable for food-contact applications. Features include good processability in existing LDPE machines and suitability as a sealant layer for flexible packaging as well as for blown film applications such as bags.
Mitsubishi Chemical Group Corporation
BTR8002P
Processing Methods:
Cast Film Extrusion, Film Extrusion, Blown Film Extrusion, Extrusion
Labeling Claims:
Biodegradable
BTR8002P is designed as compostable tie resin for Nichigo G-Polymer™ in multilayer structure. It enables customers to produce compostable barrier packaging.
Mitsubishi Chemical Group Corporation
BioPBS™ BO-FD92PM/PB
Polymer Name:
Polybutylene Succinate Adipate (PBSA)
Labeling Claims:
Food Contact Acceptable, Bio-based, Biodegradable
Processing Methods:
Film Extrusion
Density::
1240.0 - 1240.0 kg/m³
BioPBS™ BO-FD92PM/PB is produced through a biaxially oriented process using BioPBS™ FD92PM. FD92PM is a bio-based polybutylene succinate adipate (PBSA) created by polymerizing bio-based succinic acid, 1,4-butanediol, and adipic acid. This product is primarily derived from renewable resources, making it highly biodegradable and compostable. It serves as a drop-in solution, enabling the attainment of improved sustainability objectives.
Mitsubishi Chemical Group Corporation
BioPBS™ FZ79AC
Polymer Name:
Polybutylene Succinate (PBS)
Labeling Claims:
Bio-based, Biodegradable, Food Contact Acceptable, Recyclable
Processing Methods:
Extrusion, Extrusion Coating
Density::
1260.0 - 1260.0 kg/m³
BioPBS™ FZ79AC is a bio-based polybutylene succinate (PBS) produced through the polymerization of bio-based succinic acid and 1,4-butanediol. Similar to LDPE, BioPBS™ is a soft and flexible semi-crystalline polyester that possesses excellent properties, making it well-suited for cast extrusion and extrusion coating applications such as compostable paper cups. Due to its bio-based composition, this product excels in terms of biodegradability and compostability, offering a convenient solution to enhance sustainability goals.
Mitsubishi Chemical Group Corporation
SA916F
Polymer Name:
Polyester (unspecified)
Labeling Claims:
Bio-based, Biodegradable, Food Contact Acceptable
Processing Methods:
Extrusion, Blown Film Extrusion, Film Extrusion, Cast Film Extrusion
Density::
1260.0 - 1260.0 kg/m³
PBST SA916F is designed to be used as a raw material for compostable compounds, especially for film applications. The use of the product as the main raw material for the resin composition allows the product to achieve a high degree of bio-based carbon content as well as high tear and puncture strength. PBST SA916F is a grade for food contact applications.
THAI WAH
ROSECO CSB1022
Polymer Name:
Thermoplastic Starch (TPS)
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable
Density:
1200.0 - 1350.0 kg/m³
ROSECO CSB1022 is biocompostable starch compound resin.
THAI WAH
ROSECO® CTT S1
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Thermoforming, Sheet Extrusion, Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable
Density::
1200.0 - 1350.0 kg/m³
ROSECO® CTT S1 is a bio-compostable thermoplastic starch compound resin designed for sheet extrusion and thermoforming applications. This product has a beige pellet look and provides excellent mechanical performance and strength at a lower carbon footprint than other finished products.
THAI WAH
ROSECO® CSJ X1
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Injection Molding
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable
Tensile Strength::
32.0 - 32.0 MPa
Density::
1400.0 - 1500.0 kg/m³
ROSECO® CSJ X1 is a bio-compostable thermoplastic starch compound resin. High strength, mechanical performance, and heat resistance are features of this white pellet resin that are specifically designed for injection applications. In the finished products, it also successfully lowers the carbon footprint.
THAI WAH
ROSECO® BioboostX30
Polymer Name:
Thermoplastic Starch (TPS)
Compatible Polymers & Resins:
Bioplastics
Functions:
Carrier, Resin
Processing Methods:
Compounding, Dry Blending, Extrusion
Density::
1300.0 - 1500.0 kg/m³
ROSECO® BioboostX30 is a bio-compostable thermoplastic starch masterbatch resin derived from tapioca starch and biopolymers. This resin, with brownish pellets, boasts high bio-content, making it an ideal choice for environmentally friendly compounding. With a neutral taste and odor, it enhances dry-blended compounding with biopolymers, and with a significant renewable material content, BioboostX30 effectively reduces the carbon footprint in end products. It's also easily processed using conventional extrusion machinery.
THAI WAH
ROSECO® CSB S3
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Density::
1250.0 - 1450.0 kg/m³
ROSECO® CSB S3 is a bio-compostable starch compound resin derived from tapioca starch and biopolymers, is characterized by its high bio-content and exceptional mechanical properties, making it well-suited for blown film applications. With warm beige pellets, it provides high toughness and mechanical performance for blown film applications. With a significant renewable material content, CSB S3 effectively reduces the carbon footprint in end products while enhancing functionality and mechanical attributes. It's also easily processed using conventional extrusion machinery.
THAI WAH
ROSECO® CSB S1
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Density::
1250.0 - 1450.0 kg/m³
ROSECO® CSB S1 is a bio-compostable starch compound resin crafted from tapioca starch and biopolymers. This resin, featuring warm beige pellets, boasts high bio-content and remarkable mechanical properties, making it an ideal choice for blown film applications. With its excellent strength and modulus, it effectively reduces the carbon footprint in end products, while enhancing functionality and mechanical performance. Plus, it's easily processed on conventional extrusion machinery.
THAI WAH
ROSECO® TPS S3
Polymer Name:
Thermoplastic Starch (TPS)
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable
Density:
1450.0 - 1550.0 kg/m³
ROSECO® TPS S3 is a thermoplastic starch product with a taste and odor-neutral profile. It has clear light yellow pellets that increase renewable content, reduce carbon footprint, and maximize economical formulations. It can decompose when the right conditions are met.
THAI WAH
ROSECO® CSB X2
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Density:
1200.0 - 1400.0 kg/m³
ROSECO® CSB X2 is a bio-compostable starch compound resin derived from tapioca starch and biopolymers, excels in delivering high bio-content and exceptional mechanical properties. Designed for blown film applications, this warm beige pellet resin offers superior translucence and mechanical performance. With a significant renewable material content, CSB X2 effectively reduces the carbon footprint in end products while enhancing functionality and mechanical attributes. It's also easily processed using conventional extrusion machinery.
THAI WAH
ROSECO® TPS S1
Polymer Name:
Thermoplastic Starch (TPS)
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable
Density:
1300.0 - 1500.0 kg/m³
ROSECO® TPS S1 is a thermoplastic starch product that increases renewable content, reduces your carbon footprint, and enhances cost-saving formulations. This product is compostable under suitable conditions, it offers a taste and odor-neutral experience, with a light yellow transparent appearance.
THAI WAH
ROSECO® CSE S2
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Tensile Strength::
22.0 - 22.0 MPa
ROSECO® CSE S2 is a bio-compostable starch compound resin derived from tapioca starch and biopolymers. This resin, with its warm beige pellet appearance, is ideal for extrusion applications, offering high flexibility and mechanical performance. With a significant bio-content, it effectively reduces the carbon footprint in end products, all while remaining compatible with conventional extrusion machinery for enhanced functional and mechanical benefits.
THAI WAH
ROSECO® CSE S1
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Tensile Strength::
40.0 - 40.0 MPa
Density::
1250.0 - 1350.0 kg/m³
ROSECO® CSE S1 is a bio-compostable starch compound resin derived from tapioca starch and biopolymers. This resin is distinguished by its high bio-content and is well-suited for extrusion applications. With warm beige pellets, it provides high stiffness and mechanical performance for extrusion applications. With a substantial amount of renewable materials, CSE S1 effectively reduces the carbon footprint in end products while enhancing functionality and mechanical attributes. It's also easily processed using conventional extrusion machinery.
THAI WAH
ROSECO® BioboostX70
Polymer Name:
Thermoplastic Starch (TPS)
Functions:
Carrier, Resin
Compatible Polymers & Resins:
Bioplastics
Processing Methods:
Dry Blending, Compounding
Density::
1300.0 - 1500.0 kg/m³
ROSECO® BioboostX70 is a bio-compostable thermoplastic starch masterbatch resin derived from tapioca starch and biopolymers. This resin, featuring white pellets, boasts high bio-content, making it an ideal choice for environmentally friendly compounding. With a neutral taste and odor, it enhances dry-blended compounding with biopolymers. With a significant renewable material content, BioboostX70 effectively reduces the carbon footprint in end products while remaining easily processable on conventional machinery.
THAI WAH
ROSECO® CSB S2
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Density::
1250.0 - 1350.0 kg/m³
ROSECO® CSB S2 is a bio-compostable starch compound resin derived from tapioca starch and biopolymers. This resin is characterized by its high bio-content and exceptional mechanical properties, making it an excellent choice for blown film applications. With warm beige pellets, it provides high strength and mechanical performance for blown film applications. With a significant renewable material content, CSB S2 effectively reduces the carbon footprint in end products while enhancing functionality and mechanical attributes. It's also easily processed using conventional extrusion machinery.
THAI WAH
ROSECO® CSB X1
Polymer Name:
Thermoplastic Starch (TPS)
Processing Methods:
Film Extrusion, Blown Film Extrusion, Extrusion
Labeling Claims:
Low Carbon Footprint (PCF), Biodegradable, Bio-based
Density::
1250.0 - 1350.0 kg/m³
ROSECO® CSB X1 is a bio-compostable starch compound resin made from tapioca starch and biopolymers. This resin, in warm beige pellets, stands out with its high bio-content and exceptional mechanical properties, perfect for blown film applications. Offering a translucent appearance and superior mechanical performance, it significantly reduces the carbon footprint in end products, while also enhancing functionality and mechanical attributes. Plus, it's compatible with conventional extrusion machinery.
THAI WAH
ROSECO® BioboostX50
Polymer Name:
Thermoplastic Starch (TPS)
Compatible Polymers & Resins:
Bioplastics
Functions:
Resin, Carrier
Processing Methods:
Compounding, Dry Blending, Extrusion
Density:
1250.0 - 1450.0 kg/m³
ROSECO® BioboostX50 is a bio-compostable thermoplastic starch masterbatch resin derived from tapioca starch and biopolymers. This resin, with brownish pellets, boasts high biocontent, making it ideal for eco-friendly compounding. Offering a neutral taste and odor, it enhances blocking for dry-blended compounding with biopolymers. With a significant renewable material content, BioboostX50 effectively reduces the carbon footprint in end products, all while being compatible with conventional extrusion machinery.
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