This article explores the critical considerations for selecting flame-retardant materials in new energy vehicles, emphasizing their importance in ensuring electrical safety across various components like vehicle interiors, battery modules, charging facilities, connectors, and cables, and highlights key material characteristics and requirements for each application.

The bromine market experienced significant changes this week, with an increase in production activity and a sharp price drop due to high supply and weak demand growth, and prices are expected to continue declining in the short term.

This article explores automotive fire - retardant material trends and flame - retardant fiber applications. It presents the research history, material classification, and automotive application examples, and points out the future development direction of automotive flame - retardant fibers.

This article details the primary methods and technologies for enhancing the flame retardancy of rigid polyurethane foam insulation materials, including additive and reactive flame retardants. It covers various flame retardant systems and their effects, highlighting the significance of improving flame retardancy in rigid polyurethane foam insulation materials.

This article explores the use of tetraethyl orthosilicate (TEOS) as a flame retardant in rigid polyurethane foam (RPUF) to enhance its fire safety performance. Through various tests, it demonstrates that TEOS effectively improves the fire safety of RPUF by reducing the heat release rate, smoke release rate, and promoting the formation of a protective char layer.

This article delves into the multifaceted applications of foam materials in the new energy vehicle sector, including power battery heat dissipation and protection, NVH (Noise, Vibration, and Harshness) performance enhancement, and lightweight vehicle design. It highlights how foam materials, with their lightweight, flame-retardant, sound-absorbing, and shock-absorbing properties, are driving the development of new energy vehicles.

The global flame retardants market is evolving towards being environmentally friendly, efficient and multifunctional and is expected to reach $45 billion by 2030. YINSU Flame Retardant is driving the industry's transition to green chemistry and sustainability through innovative technologies such as phosphorus-nitrogen complex flame retardants and microencapsulated red phosphorus.

UL510 is the preferred standard for tape flammability testing due to its international recognition, rigorous testing protocols, clear performance ratings, and alignment with global safety regulations. It ensures product safety, enhances market competitiveness, and supports innovation in flame-retardant materials.

Flame-retardant coating adhesives, as a key technology in the field of fireproofing materials, are being used in a wide range of applications in the construction, electronics, automotive and textile industries through technological innovations to meet the demand for environmental protection and high performance.YINSU Flame Retardant is advancing the development of global fire safety through breakthroughs in phosphorus-nitrogen-based halogen-free flame retardants.

This article highlights the latest advancements in flame retardant technology, emphasizing eco-friendly composite, synergistic, and macromolecular approaches to enhance polymer fire safety.

This article explores five key factors causing color variation and discoloration in flame retardant modified materials, including raw material stability, flame retardant thermal resistance, filler impurities, additive interactions, and environmental impact. YINSU Flame Retardant Company offers specialized solutions to optimize performance and ensure long-term color stability in complex processing environments.

Chinaplas 2025 has come to a successful end!

Carbonized polymer flame retardant technology effectively reduces smoke emission and improves flame retardancy by promoting carbonization of the material surface. Anti-drip technology reduces the risk of fire spread by preventing the melt from dripping during combustion through cross-linking and the addition of anti-drip or compatibilizing agents.

Protect Your Investments with High Concentration Red Phosphorus FRP-950The FRP-950 series is a flame retardant masterbatch made from microencapsulated red phosphorus that provides superior flame retardancy without compromising mechanical performance. It only requires 5-9% to achieve UL94-V0 (T2.0mm

Flame retardant PE can be used not only in building materials, but also widely used in other aspects such as automotive industry and electrical industry. In fact, the most prominent use of flame retardant PE in automobile is corrugated pipe for automobile.

Environmental Concerns For The Use of Flame Retardants In Wire & Cable Materials1. Chemical leaching and contamination of the environment

The growth of the engineering plastics market is benefiting from its application in various industries, especially in electrical and electronics, packaging, and automotive. The engineering plastics market is expected to continue to grow with the increasing demand for high performance materials.

The flame retardants used in engineering plastics are mainly halogenated flame retardants and phosphorus flame retardants.

Dissolution and Migration of Yinsu Plastic Flame Retardants in PolymersYinsu plastic flame retardants are a class of chemicals used to improve the flame retardancy of polymer materials. Solubility and mobility in polymers are important properties of flame retardants, which will have a significant im

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.