Get an in-depth look at how red phosphorus flame retardants have become the leader among inorganic flame retardant materials with their excellent flame retardant properties, and explore how YINSU Flame Retardant has pushed the performance of red phosphorus flame retardants to new heights through innovative technologies.
MDH flame retardants offer numerous advantages, including their non-toxic and smokeless nature, chemical stability, improved processing and mechanical properties, and the potential for surface modification and nano-sizing. Ongoing research and development efforts are focused on enhancing the performance of MDH, addressing its limitations, and exploring new avenues for improvement. With its potential to become a highly efficient and environmentally friendly flame retardant, MDH holds great promise for the future of fire safety in various industries.
Magnesium hydroxide (MDH) flame retardants offer a promising solution for enhancing fire safety in various industries. Despite their limitations, ongoing research and development efforts are focused on addressing these challenges and improving the performance of MDH as a flame retardant.
Cable flame retardant is a widely used material in the field of electrical engineering, which has an important role in stopping the spread of fire. With the continuous development of the power system and the expansion of the application field, the requirements for the safety performance of cables are getting higher and higher. Cable flame retardant is characterized by high temperature resistance, fire resistance, low smoke and non-toxicity, etc. It can effectively stop the spread of flame and reduce the release of smoke, so as to reduce the danger of fire. This article will answer some common questions about cable flame retardants to help you better understand the knowledge in this field.
Low Smoke Zero Halogen (LSZH) cables are a revolutionary solution that prioritizes safety and minimizes risks in various industries and environments. These cables have emerged as a reliable alternative to traditional cables, offering numerous benefits that enhance fire safety and protect human health.
Research on the performance of flame retardants under high temperature environment has been an important topic in the field of fireproof materials. Under high temperature conditions, the performance of flame retardants will directly affect the fire safety performance of electronic devices. In this paper, we will introduce the research on the performance of flame retardants under high-temperature environment and verify its effect through experimental data.