Selecting the appropriate flame retardant is a critical decision for any manufacturer aiming to enhance product safety and meet regulatory standards. Tris(2,3-dibromopropyl)isocyanurate (TBC), identified by CAS number 52434-90-9, is a highly effective brominated flame retardant that offers significant advantages across various industries. This guide is designed for procurement managers, R&D scientists, and formulators who need to understand TBC's capabilities and how to source it effectively. We will cover its key characteristics, application suitability, and the importance of choosing a reliable manufacturer and supplier.

TBC's chemical structure, C12H15N3O3Br6, inherently provides a robust flame-retardant mechanism. As a white powder, its physical properties, such as a melting point of 105-115°C, allow for straightforward integration into polymer processing. The effectiveness of TBC is well-documented across a spectrum of materials, including polyolefins, PVC, ABS, polyurethane foams, and synthetic rubber. Its ability to inhibit the spread of flames makes it an indispensable additive for products where fire safety is a primary concern.

For those seeking to buy Tris(2,3-dibromopropyl)isocyanurate, understanding its performance in specific polymer matrices is key. TBC excels in applications requiring high flame retardancy, such as wire and cable insulation, automotive interiors, construction materials, and electronic housings. Its contribution to achieving UL94 V-0 or V-2 ratings in certain formulations is a significant selling point for manufacturers. When you are looking for a dependable TBC flame retardant supplier, consider companies with a proven track record in quality and consistent supply.

The sourcing process for TBC involves identifying manufacturers who can provide not only competitive pricing but also assurance of product quality. As a leading CAS 52434-90-9 manufacturer China, we understand the importance of purity, particle size, and thermal stability for optimal performance. We offer various grades of TBC, such as FARIDA TBC-A and FARIDA TBC-B, each with specific active content and melting point ranges to suit different processing requirements. Ensuring you get the right grade is crucial for successful formulation.

When evaluating TBC products, pay attention to key specifications like bromine content (typically above 65%), acid value, volatile matter, and initial decomposition temperature. These parameters directly influence the efficacy and stability of the flame retardant. A higher bromine content generally correlates with better flame retardant performance. Furthermore, low volatile matter and a high decomposition temperature are indicative of a stable product that can withstand processing temperatures without degradation. If you’re asking about TBC flame retardant price for PVC applications, it’s best to reach out directly for a tailored quote based on your volume needs.

Choosing a trustworthy supplier is paramount. A good supplier will offer not only the product but also technical support to help you integrate TBC effectively into your formulations. They should be able to provide datasheets, safety information, and guidance on handling and storage. Our company as a TBC manufacturer is committed to providing comprehensive support, ensuring our clients can confidently purchase TBC for their critical applications. We aim to be your go-to source for high-quality flame retardants.

In conclusion, Tris(2,3-dibromopropyl)isocyanurate (TBC) is a vital component for achieving superior fire safety in modern materials. By understanding its properties, applications, and the importance of sourcing from reputable manufacturers, businesses can make informed decisions that lead to safer, higher-performing products. We invite you to contact us to discuss your needs and discover how our TBC flame retardant can benefit your operations.