Explore the flame retardant modification technology of ABS resin and new environmentally friendly flame retardants, and gain an in-depth understanding of how to improve the performance of materials.   Read More>

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.   Read More>

In recent years, the development of ABS flame retardant has been a topic of great interest and importance in the industry. Manufacturers and researchers have been working tirelessly to improve the flame retardant properties of ABS, in order to meet the increasing demand for safer and more fire-resistant materials.   Read More>

ABS (acrylonitrile-butadiene-styrene) is a widely used polymer known for its excellent mechanical properties and versatility. However, ABS is a flammable material, making it unsuitable for certain applications where fire safety is a concern. To overcome this limitation, flame retardant additives are incorporated into ABS to enhance its fire resistance properties. In this article, we will focus on the different types of flame retardants used in ABS. From non-halogenated options to halogenated compounds, we will explore the pros and cons of each type, providing you with valuable insights into their performance and environmental impact.   Read More>

Flame retardants are chemicals that are added to various materials, such as plastics, textiles, and surface coatings, to inhibit, suppress, or delay the production of flames and prevent the spread of fire. Bromine, along with other elements like phosphorus, nitrogen, magnesium, and aluminum, contributes to the flame retardant function. Bromine, a member of the halogen group, is a highly efficient element when it comes to fire resistance. Even in small amounts, it exhibits exceptional effectiveness in reducing the flammability of materials. This unique chemical interaction with the combustion process makes bromine flame retardants an indispensable tool in meeting fire safety requirements and protecting consumers.   Read More>

With the peak of the capacity to put, the basic chemical raw materials overcapacity trend is obvious, and the new energy industry's rapid development, for the development of new chemical materials to bring new opportunities, the relevant capacity in the past two years has increased rapidly.   Read More>