Description
FR1009R50 flame retardant recycles polycarbonate modified plasticMVR(300ºC/1.2kg) 9.0cm³/10min;
50% Post consumer recycles content;
flame retarded;
UL94V 0/1.5mm and 5VA/3.0mm;
medium viscosity;
easy release;
injection molding;
melt temperature 280-320 ºC;
available in opaque colors only.
PCR Recycles PC refers to the process of recycling polycarbonate (PC) materials, providing an eco-friendly and sustainable solution. Recycled PC is obtained from post-consumer or post-industrial waste, reducing environmental impact by diverting plastic from landfills. By repurposing discarded PC products through a meticulous recycling process, recycles PC helps conserve resources and reduce carbon footprint. It offers similar properties to virgin PC, including durability, impact resistance, and heat tolerance, making it suitable for various applications like electronics, construction, packaging, and automotive industries. Embracing recycles PC not only supports a circular economy but also showcases a commitment to environmental stewardship and responsible consumption.Glass fibre polycarbonate is a high-performance material widely used in various industries. This composite combines the lightweight properties of polycarbonate with the strength and rigidity of glass fibers, resulting in a durable and versatile product.
Glass fibre polycarbonate offers exceptional impact resistance, making it suitable for applications requiring toughness, such as automotive parts, aircraft components, and protective equipment. Its excellent transparency and UV resistance make it ideal for optical applications like lenses, light covers, and windows.
In addition to its physical properties, glass fibre polycarbonate is also known for its chemical resistance, electrical insulation capabilities, and flame retardancy. This makes it valuable in environments where exposure to harsh chemicals, electrical hazards, or fire risks are present.
With its exceptional combination of strength, durability, transparency, and versatility, glass fibre polycarbonate is a favored choice for manufacturers seeking high-performance materials for their products. Its wide range of applications and superior characteristics make it an excellent investment for industries prioritizing quality and reliability.
Enhanced Performance and Durability: UV Stabilized, Flame Retardant, Low-Temperature Impact Modified PC Materials
Introduction:
In today's ever-evolving world of advanced materials, it is crucial to select the right components that offer superior performance, durability, and safety. When it comes to PC (polycarbonate) materials, incorporating key characteristics such as UV stabilization, flame retardancy, and low-temperature impact resistance becomes paramount. This comprehensive description delves into the benefits and applications of UV stabilized, flame retardant, low-temperature impact modified PC materials.
UV Stabilized PC Materials: One of the primary concerns with using PC materials is their susceptibility to degradation caused by prolonged exposure to ultraviolet (UV) radiation. However, UV stabilized PC materials are specifically engineered to withstand the damaging effects of UV rays. By incorporating UV stabilizers during the manufacturing process, these materials efficiently absorb and dissipate UV radiation, thereby preventing discoloration, surface degradation, and loss of mechanical properties. The superior UV resistance makes them ideal for outdoor applications where long-term exposure to sunlight is expected, such as exterior automotive components, electrical enclosures, architectural panels, and outdoor signage.
Flame Retardant PC Materials: Safety is a critical aspect when it comes to material selection, especially in industries where fire hazards are a concern. Flame retardant PC materials are formulated to inhibit the spread of flames, minimize smoke emission, and prevent the formation of hazardous gases during combustion. These materials undergo rigorous testing to meet stringent fire safety standards, making them an excellent choice for applications in electronics, transportation, construction, and consumer goods. Examples include electrical connectors, housing for electrical appliances, automotive interior components, and aerospace applications.
Low-Temperature Impact Modified PC Materials: In certain environments, PC materials may encounter low temperatures that can significantly impact their mechanical strength and toughness. By incorporating low-temperature impact modifiers, PC materials can maintain their integrity and performance even in sub-zero conditions. These modifiers enhance the material's ability to withstand rapid temperature changes, preventing brittle failure, cracking, and loss of impact resistance. Low-temperature impact modified PC materials find applications in various industries, including automotive components, electronics, sporting goods, and outdoor equipment.
Conclusion:
UV stabilized, flame retardant, low-temperature impact modified PC materials offer a host of benefits that make them indispensable in a wide range of applications. Their superior UV resistance ensures long-term durability and appearance retention when exposed to sunlight. The flame retardant properties provide enhanced safety features, reducing the risk of fire and minimizing the release of harmful substances. Additionally, the low-temperature impact modifiers enable these materials to maintain their strength and toughness, even under extreme cold conditions. Whether you require materials for outdoor use, fire-resistant applications, or sub-zero environments, UV stabilized, flame retardant, low-temperature impact modified PC materials are the ideal choice for exceptional performance, durability, and safety.
Exploring Modified Plastic Materials: ABS Pellets, PC Pellets, and PC ABS Alloy as Flame Retardant Options
Modified plastics have become an integral part of various industries due to their versatile nature and enhanced properties. This article focuses on three key materials: ABS pellets, PC pellets, and PC ABS alloy. Additionally, it highlights the importance of flame retardancy in plastic applications.
Modified plastics refer to materials that undergo specific alterations to enhance their physical, chemical, or mechanical properties. These modifications involve adding additives, fillers, or reinforcing agents to the base plastic. ABS pellets, short for Acrylonitrile Butadiene Styrene, offer a balanced combination of strength, impact resistance, and heat resistance. PC pellets, or Polycarbonate pellets, are known for their excellent transparency, high impact resistance, and outstanding thermal stability. PC ABS alloy is a blend of polycarbonate and acrylonitrile-butadiene-styrene, combining the best properties of both materials.
Flame retardancy is a critical requirement in many plastic applications to ensure safety and compliance with regulations. When plastics catch fire, they release toxic gases and propagate flames, posing significant risks. To address this concern, modified plastics like ABS, PC, and PC ABS alloy can be formulated with flame retardant additives. These additives suppress ignition, slow down combustion rates, and reduce smoke generation. They act by interrupting the chemical reaction that sustains the fire, providing valuable time for evacuation and firefighting measures.
ABS pellets are widely used in automotive, electronic, and consumer goods industries. Their favorable mechanical properties, including good impact resistance and dimensional stability, make them suitable for various applications. ABS can be modified further to meet specific requirements such as increased strength, improved heat resistance, or enhanced surface finish. Manufacturers often choose ABS pellets with flame retardant additives to ensure product safety where fire risks exist.
PC pellets find extensive use in industries such as electrical and electronic components, automotive, and optical applications. Polycarbonate offers excellent transparency, high impact resistance, and remarkable dimensional stability. It is highly resistant to heat, chemicals, and UV radiation. Adding flame retardants to PC pellets ensures that these materials maintain their desirable properties while meeting stringent fire safety regulations.
PC ABS alloy brings together the advantages of both polycarbonate and ABS materials. The resulting blend exhibits exceptional toughness, impact resistance, and heat resistance. PC ABS alloys find applications in automotive parts, electronics, and telecommunications equipment due to their ability to withstand demanding environmental conditions. By incorporating flame retardant properties into PC ABS alloys, manufacturers can ensure fire safety without compromising on the material's inherent qualities.
Modified plastics such as ABS pellets, PC pellets, and PC ABS alloy play a significant role in numerous industries. By formulating these materials with appropriate flame retardant additives, manufacturers can create products that meet strict safety standards. Understanding the properties and applications of these modified plastic materials helps in making informed choices for various engineering and manufacturing needs.
JISU Material Technology (Dongguan) Co., Ltd. (CRESTPLASTIC) started in 2019.
In just three years, with the rapid development of the energy storage industry and the large and small power battery industry, and despite the challenges posed by the pandemic over the past three years, the company's sales revenue has doubled year after year, from 1 million yuan in 2019 to 10 million yuan in 2020, over 30 million yuan in 2021, and is expected to reach 80 million yuan in sales revenue in 2023.
It has become a leading professional provider of flame-retardant polymer materials and services.
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