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Why Halogenated Flame Retardants Are Still Used in Critical Safety Applications

  Fire safety is one of the most important concerns in industries ranging from electronics to automotive and construction. Over the years, different flame-retardant technologies have been developed to minimize risks, but some continue to dominate specific high-risk applications. Among these, halogenated flame retardants remain widely used despite growing discussions about alternatives. The reason is simple: in critical safety applications where reliability is non-negotiable, these flame retardants consistently deliver unmatched performance. What Are Halogenated Flame Retardants? Halogenated flame retardants are element-based additives like bromine and chlorine. They are added to polymers and other materials to minimize flammability as well as hold back fire. When subjected to fire, they emit halogen radicals that disrupt the chemical reaction involved in the combustion process, thereby slowing down or halting the flames' spread. Their fast action and low concentration capability ...
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Uses of Desiccant Masterbatch

The use of desiccant masterbatch helps to improve the quality and functionality of plastic products. It prevents the absorption of moisture by plastic products during storage, transportation, and use, thereby reducing the risk of defects and ensuring consistent performance. Desiccant masterbatch is an efficient and cost-effective way of incorporating desiccant material into plastic products, as it ensures uniform distribution and optimal performance.

The selection of the appropriate desiccant masterbatch depends on the type of polymer and the desired level of moisture absorption. Desiccant masterbatch is typically produced using a twin-screw extruder, where the base resin and desiccant material are compounded at high temperatures and pressures. The resulting masterbatch is then pelletized and can be easily added to the base resin during the molding or extrusion process. 

Desiccant masterbatch can be combined with other additives, such as anti-oxidants and UV stabilizers, to enhance the overall performance of plastic products. Anti-oxidants prevent the degradation of plastic products due to exposure to heat, oxygen, and light, while UV stabilizers protect plastic products from UV radiation.

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