For chemists, formulators, and procurement specialists in the chemical industry, a thorough understanding of a compound's properties is fundamental to its successful application. Di-Tert-Butyl Peroxide (DTBP), identified by CAS number 110-05-4, is a vital organic peroxide whose specific chemical characteristics make it indispensable in numerous industrial processes. As a dedicated manufacturer and supplier, we aim to provide clarity on these properties, empowering our clients to make informed purchasing decisions.

Di-Tert-Butyl Peroxide is characterized by its clear liquid appearance and a molecular formula of C8H18O2, with a molar mass of 146.23 g/mol. A key property that distinguishes DTBP is its thermal stability. Unlike many other organic peroxides, the bulky tert-butyl groups surrounding the peroxide bond impart a degree of steric hindrance, which moderates its decomposition rate. This stability is crucial for safe handling, storage (recommended at 2-8°C), and predictable performance during reactions. Its low flash point (34°F) indicates flammability, necessitating careful handling procedures that are standard for organic peroxides.

The reactivity of DTBP is primarily driven by the homolytic cleavage of its peroxide bond, typically initiated by heat. This process generates tert-butoxy radicals, which can further decompose or initiate polymerization. The decomposition temperature range and kinetics are critical parameters for its use as a radical initiator. DTBP's boiling point is approximately 109-110°C, and its density is around 0.796 g/mL at 25°C, providing further data points for process design and handling. Its immiscibility with water is also a notable characteristic for formulation and separation processes.

In polymer production, DTBP’s properties are leveraged extensively. As a polymerization initiator, it facilitates the formation of polymers like LDPE and styrene, influencing reaction rates and the molecular weight of the resulting polymer chains. When you buy DTBP for these applications, you are investing in a compound that ensures efficient radical generation at the required temperatures, often in the range of 95-185°C. Its utility in acrylics polymerization, for instance, is well-documented, contributing to the synthesis of materials used in coatings and adhesives.

Furthermore, DTBP’s ability to act as a crosslinking agent relies on its radical-generating capability at elevated temperatures. This allows it to create covalent bonds between polymer chains, thereby enhancing the mechanical strength, thermal resistance, and chemical stability of materials such as cross-linked polyethylene (PEX). For businesses looking to buy crosslinking agents to improve polymer performance, DTBP offers a reliable solution.

Understanding these chemical properties is vital for any professional intending to purchase and utilize Di-Tert-Butyl Peroxide. As a reputable supplier, we emphasize the importance of consulting Safety Data Sheets (SDS) and following recommended handling protocols. If you are seeking a trusted manufacturer to buy high-quality DTBP, our commitment to product excellence and technical support ensures you receive a chemical intermediate that meets your exact specifications and application needs.

In conclusion, the chemical properties of Di-Tert-Butyl Peroxide make it an exceptionally valuable compound for the chemical industry. Its controlled radical generation, thermal stability, and versatile reactivity as both an initiator and crosslinker underscore its importance. We invite you to contact us for more information on DTBP, to request samples, and to explore competitive pricing from our manufacturing facility.