Products in Biodegradable Polymers

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.

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.

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.

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.

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.

ROSECO® CSJ S2 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.

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.

ROSECO CSB1022 is biocompostable starch compound resin.

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.

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.

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.

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.

ROSECO® CSJ S1 is a bio-compostable thermoplastic starch compound resin, designed for injection applications. With the added benefit of lowering the carbon footprint of the finished goods, this white pellet resin offers great strength and mechanical performance for injection procedures.

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.

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.

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.

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.

Floreon Dura Tech Durable Grade is a PLA based compound intended for durable applications requiring high impact resistance, whilst also retaining a high renewable content which can be certified to recognized criteria. The material is recyclable and is not intended for applications that are compostable.

Floreon Bio Tech Compostable Grade is intended for injection molded applications, with high rigidity and good impact strength. The material is a compound of polylactic acid (PLA) and other biodegradable polyesters which enhance the melt flow rate and toughness of the material.

Floreon Therma Tech Flame Retarded Grade is a PLA based compound intended for durable applications requiring flame retardancy. This developmental grade contains a flame retardant, impact modifier, nucleating agent. The material is based on PLA and is designed as a drop in replacement for ABS in injection molding, extrusion and 3D printing. Drying of the material is recommended to ensure melt stability and limit degradation of the material during processing.

Terratek® NF2050 is a proprietary blend of sisal fiber and reprocessed polypropylene for injection molding applications. NF2050 contains 15% sisal fiber by weight.

Terratek® NF3050 is a proprietary blend of natural fiber and reprocessed polypropylene for injection molding applications. NF3050 contains 15% natural fiber by weight.

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.

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.

Danimer 2198 is a bio-based resin designed for extrusion applications and is produced using Danimer Scientific’s proprietary reactive extrusion process.

Danimer 2272 resin is a PHA based resin designed for extrusion applications and is produced using Danimer’s proprietary reactive extrusion process. The resin is suitable for a range of profile extrusion applications, such as drinking straws. It is designed to meet the TUV standards for compostability and biodegradation.

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.

Terratek® WC200118 is a proprietary blend of maple wood fiber and polypropylene for injection molding applications. WC200118 contains 30% wood fiber by weight.

Terratek® WC200122 is a proprietary blend of maple wood fiber and polypropylene for injection molding applications. WC200122 contains 15% wood fiber by weight.

Terratek® WC200300 is a proprietary blend of pine wood fiber and reprocessed polypropylene for injection molding applications. WC200300 contains 30% wood fiber by weight.

Terratek® BD2214 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.

Terratek® WC200112 is a proprietary blend of pine wood fiber and polypropylene for injection molding applications. WC200112 contains 15% wood fiber by weight.