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CircleBlend® Polyethylene terephthalate (PET) is modified for high-performance or multifunctional applications based on standardized recycled and/or virgin PET materials. Currently, this series includes product grades such as glass fiber-reinforced and flame-retardant rPET, which can meet the demands of various specific application scenarios.
| Material Brand | Tensile Strength (MPa) | Bending Modulus (MPa) | Notched Impact Strength (KJ/m²) | GF Content (%) | UL 94 | Color | PCR Content (%) | Carbon Footprint (t CO2/t) | Application |
|---|---|---|---|---|---|---|---|---|---|
| rPET-G20(GPH01) | 50 | 3800 | >4 | 15 | HB 2.0mm | White or Custom Color | 78+ | 0.649 | Injection Molding |
| rPET-G30(GPG01) | 90 | 6500 | >6 | 30 | HB 2.0mm | White or Custom Color | 60+ | 0.606 | Injection Molding |
| rPET-G50(GPE01) | 100 | 1500 | >7 | 45 | HB 2.0mm | White or Custom Color | 45+ | 0.562 | Injection Molding |
CircleBlend®,rPETBlend®,OBPBlend® ;
The glass fiber-reinforced rPET series combines standard rPET pellets with glass fiber, offering excellent mechanical properties, dimensional stability, and high-temperature resistance. It is widely applicable in household appliance components, engineering parts, and automotive parts.
| Typical Grade | Characteristic | Tensile Strength (MPa) | Bending Modulus (MPa) | Notched IZOD Impact Strength (KJ/m²) | UL 94 | Appearance | PCR Content (%) | Carbon Footprint (t CO2/t) | Application |
|---|---|---|---|---|---|---|---|---|---|
| rPET-G20(FRH01) | 15%GF, HFFR | 70 | 3000 | 5 | VO 2mm | Natural and all colors | 75+ | 0.809 | Injection Molding |
| rPET-G30(FRG01) | 30%GF, HFFR | 80 | 5000 | 8 | VO 2mm | Natural and all colors | 60+ | 0.765 | Injection Molding |
CircleBlend®,rPETBlend®,ITEBlend®,OBPBlend®;
The glass fiber-reinforced flame-retardant rPET series combines standard rPET pellets with glass fiber and flame retardants, offering excellent mechanical and flame-retardant properties. It is widely used in electronics and electrical appliances, construction, and automotive industries.
We offer a wide variety of materials, including general plastics, engineering plastics, and specialty plastics, covering almost all types of recycled polymers.
With a dedicated R&D team, we continuously innovate and develop high-performance, customized material solutions to meet diverse industry needs.
From research and testing to manufacturing and sales, we provide end-to-end solutions, streamlining the supply chain for our clients.
Our products promote low-carbon, circular economy practices,supporting global sustainability efforts with bio-based and degradable materials.
Sustainable low - carbon functional materials are applied across numerous critical areas. In the energy sector, they are pivotal. For instance, advanced photovoltaic materials with low - carbon manufacturing processes are used to construct more efficient solar panels. These materials enhance the conversion of sunlight into electricity, contributing to the expansion of renewable energy sources and reducing reliance on fossil fuels.
In the textile industry, sustainable low - carbon functional materials are making waves. Bio - based and recycled fibers are being used to create fabrics. These materials not only consume less energy during production but also have a lower environmental impact compared to traditional synthetic fibers. Moreover, some functional textiles made from these materials can regulate body temperature, repel water, or provide UV protection, all while maintaining a low - carbon footprint.
In the textile industry, sustainable low - carbon functional materials are making waves. Bio - based and recycled fibers are being used to create fabrics. These materials not only consume less energy during production but also have a lower environmental impact compared to traditional synthetic fibers. Moreover, some functional textiles made from these materials can regulate body temperature, repel water, or provide UV protection, all while maintaining a low - carbon footprint.
Sustainable low - carbon functional materials are applied across numerous critical areas. In the energy sector, they are pivotal. For instance, advanced photovoltaic materials with low - carbon manufacturing processes are used to construct more efficient solar panels. These materials enhance the conversion of sunlight into electricity, contributing to the expansion of renewable energy sources and reducing reliance on fossil fuels.
In the textile industry, sustainable low - carbon functional materials are making waves. Bio - based and recycled fibers are being used to create fabrics. These materials not only consume less energy during production but also have a lower environmental impact compared to traditional synthetic fibers. Moreover, some functional textiles made from these materials can regulate body temperature, repel water, or provide UV protection, all while maintaining a low - carbon footprint.
In the textile industry, sustainable low - carbon functional materials are making waves. Bio - based and recycled fibers are being used to create fabrics. These materials not only consume less energy during production but also have a lower environmental impact compared to traditional synthetic fibers. Moreover, some functional textiles made from these materials can regulate body temperature, repel water, or provide UV protection, all while maintaining a low - carbon footprint.
