Recycled nylon transforms waste (fishing nets, textiles) into high-performance fabric matching virgin nylon's strength and durability while slashing oil use (7 tons saved/ton) and CO2 emissions. Used in fashion (e.g., Prada), sportswear, and industrial gear, it faces cost/tech hurdles but grows via sustainability demand, policy support, and innovations like flame retardants (YINSU’ s PET-55, PG-50).

PET, PBT, and PTT are polyester fibers with distinct properties. PET offers high strength and elasticity, used in apparel and industries. PBT provides flexibility and dyeability, suitable for elastic clothes. PTT, a newer fiber, has superior elasticity and wrinkle resistance, ideal for swimwear and shape-memory fabrics. Yinsu's flame retardants like PET-55D and PET-70B aid PET processing. Future efforts focus on multifunctional fibers and sustainable production.

Learn how to enhance PBT's heat resistance and impact strength through material modification, process optimization, and synergistic strategies. Explore real-world applications and innovative solutions for elevated performance.

Discover the comprehensive overview of PBT additives, including flame retardants, compatibilizers, wear-resistant agents, processing aids, deodorizers, pigments, and nucleating agents. Learn how these additives enhance PBT's properties and performance in various applications. Also, explore YINSU Company's high-quality flame retardant solutions for PBT materials.

PBT, a vital engineering plastic, is analyzed for its production processes, properties, and applications. With excellent heat resistance and mechanical strength, PBT is widely used in electronics, automobiles, and machinery. The article also highlights how YINSU Flame Retardant Company enhances PBT's safety with its flame retardant products, pointing to PBT's growing application potential and continuous innovation.

PBT remained under pressure from soft costs and seasonal demand, sustaining a downward price trend. Efficient, low-cost flame-retardant solutions are now essential for producers to protect margins and competitiveness.

The flammability of PP limits its application, so flame - retardant modification is crucial. Various flame - retardant systems like metal hydroxide, boron, phosphorus, nitrogen - based, and intumescent ones are used, and flame - retardant PP has applications in packaging. YINSU Flame Retardant offers diverse solutions for different PP needs, promoting industry development.

Plastic additives, including functional masterbatches, processing aids, etc., are used to enhance plastic properties. When selecting them, factors like compatibility, durability, and adaptability to processing conditions must be considered. YINSU Flame Retardant Company provides high - quality flame retardant solutions, contributing to plastic product safety and performance.

The combustion of plastics is a complex process involving heating, thermal decomposition, ignition, sustained combustion, and cessation. Multiple factors like polymer composition, specific heat, and thermal conductivity affect it. YINSU Flame Retardant has developed eco - friendly flame retardants to enhance plastic fire - resistance in line with environmental and safety needs.

Uncover how nano-flame-retardant materials can become the guardians of social security while stimulating new sources of economic benefits.

The article mainly discusses ways to improve the CTI value of modified engineering plastics, analyzing the effects of different flame retardants like brominated, nitrogen-based, phosphorus-based ones and compounding flame retardant systems on the CTI values of materials such as PA and PBT, and also presents the achievements of YINSU Flame Retardant in this regard.

Halogen-free flame retardant PP, as an environmentally friendly material with excellent performance, low toxicity, good thermal stability, flame retardant properties, mechanical properties and processing performance, is widely used in home appliances, electronics, automotive and other fields, to meet the high demand for material safety and environmental protection in modern industry and life. With the increasing awareness of environmental protection and the continuous progress of technology, the application prospect of halogen-free flame retardant PP will be broader, providing strong support for the development of various industries.

Yinsu Flame Retardant Company's FRP-950 series red phosphorus flame retardant combined with PPO for HIPS achieves effective halogen-free flame-retardant properties, being safer in storage and use and meeting the industry's demand for environmentally friendly solutions.

In-depth analysis of the nomenclature, classification and properties of polyamide (nylon), exploring the history and structure of this polymer material and its modification methods for a wide range of applications, helping you to fully understand the unique properties and industrial value of polyamides.

With the increasing global environmental awareness and the emphasis on health and safety issues, traditional halogen flame retardants are gradually being eliminated by the market due to potential environmental and health risks. In this context, a new generation of green and environmentally friendly phosphorus flame retardants, alkyl phosphinate flame retardants, especially diethylphosphinate and its derivatives, such as aluminum diethylphosphinate (ADP), have gradually become the new favorites of the market due to their significant environmental friendliness and high efficiency.

"Flame Retardants in Plastics"Outline:IntroductionThe Importance of Flame Retardant PlasticsThe Science Behind Flame RetardanceTypes of Flame Retardants Used in PlasticsTesting and Certification of Flame Retardant PlasticsApplications of Flame Retardant PlasticsAdvantages and Limitations of Fla

PEBA, a thermoplastic polyamide elastomer, combines flexibility, resilience, and low-temperature impact resistance. Lightweight and durable, it's used in sports shoes, electronics, and medical devices. Produced via melt or solution polycondensation, PEBA is gaining popularity in foam midsoles for athletic footwear, often blended with EVA or TPU. Brands like Nike and Li Ning utilize PEBA to enhance shoe cushioning and responsiveness.

This article explores the incorporation of flame retardants as additives in plastic technology, focusing on the mechanisms of polymer combustion, the main modes of action of flame retardant materials, and commonly used flammability tests. It highlights the importance of cooling, char formation, dilution of flammable gases, and interruption of free radical chain reactions in enhancing polymer fire resistance. With challenges in optimizing flame retardant performance while maintaining material properties and environmental safety, innovations in flame retardant technology are pivotal. Keywords: flame retardants, polymer combustion, cooling, protective char, dilution, free radical chain reaction, flammability tests, plastic technology, fire safety.

The mechanical and flame retardant properties of polypropylene (PP) were significantly improved by silane modification of ADP. The article delves into the influence of different silane coupling agents on the modification effect of ADP, as well as the improvement of modified PP in terms of tensile strength, elongation at break, ultimate oxygen index and heat release rate. This technological breakthrough provides safer and more efficient solutions for the application of PP composites in automotive, electronics and construction fields, and promotes the green transformation and performance upgrading of modern industrial materials.

Nylon materials with excellent performance are widely used. YINSU Flame Retardant Company introduces red phosphorus and organic phosphorus flame retardants to upgrade the safety of nylon.