CPC HFC Disconnect Series Bodies HFCD17839MHC

CPC HFC Disconnect Series Bodies HFCD17839MHC The HFCD17839MHC in the HFC Disconnect Series represents an innovative solution tailored to the stringent requirements of the biopharmaceutical and cell and gene therapy industries. This 1/2" Hose Barb Valved Body coupling facilitates a sterile disconnection process that is both quick and reliable, courtesy of an easy-to-engage thumb latch. This feature ensures the maintenance of sterility on both sides of the system during disconnection, a critical requirement for maintaining the integrity of sensitive processes. The HFCD17839MHC is engineered for use across a diverse range of applications, from storage and mixing tanks to single-use bioreactors, transfer lines, chromatography skids, filters, sampling systems, and freeze/thaw bags. Constructed from high-quality polysulfone with an amber tint, the HFCD17839MHC adheres to USP Class VI and ADCF standards, ensuring it meets the highest levels of safety and compatibility. Clear, platinum-cured silicone O-rings and Alloy C-276 springs within the flow path underscores the coupling's superior chemical resistance and long-term durability. Capable of operating within a temperature range of 34ºF to 104ºF (1ºC to 40ºC) and handling pressures up to 75 psi (5.17 bar), it is equipped to handle the demanding conditions prevalent in modern manufacturing environments. The HFCD17839MHC's sterilization capabilities are extensive, compatible with gamma irradiation up to 50 kGy and autoclave sterilization up to 270ºF (132ºC) for 60 minutes, providing flexibility in maintaining sterility. Sold as a connected set, it features a protective thumb latch cover to safeguard against accidental disconnections, enhancing operational security. Each unit is laser-etched with an item and lot number, providing invaluable traceability for batch processes and contributing to quality control and regulatory compliance. With its robust construction and user-centric features, the HFCD17839MHC is essential for ensuring sterile, efficient, and reliable fluid management in cutting-edge manufacturing settings.