Designed for superior performance in the most demanding environments, the 3" TTV EN14410 Super Duplex Butterfly Valve is an advanced solution for industrial applications requiring exceptional durability and reliability. This valve is constructed with a high-grade 904L stainless steel shaft, known for its remarkable corrosion resistance, particularly in harsh chemical and marine environments. The valve is built to the EN14410 standard, ensuring it meets stringent European quality and safety requirements, making it ideal for critical operations.
The Super Duplex material used in the construction of this valve body provides outstanding strength and resistance to stress corrosion cracking, pitting, and crevice corrosion, making it a top choice for industries such as oil & gas, chemical processing, and desalination. The PN10 pressure rating ensures that this valve can handle moderate pressure applications with ease, while the wafer design allows for a compact and efficient installation between flanges, optimising space and reducing installation time.
One of the standout features of this valve is the EPDM seat, which offers excellent sealing capabilities and long-term resilience, ensuring leak-free performance even in applications involving aggressive media. EPDM is particularly resistant to weathering, ozone, and a wide range of chemicals, making it a versatile choice for various industrial processes. The lockable lever operation provides an added layer of security, ensuring that the valve position can be locked in place, preventing accidental or unauthorised adjustments. This feature is particularly valuable in systems where safety and precision are paramount.
In addition to its robust construction and reliable performance, the 3" TTV EN14410 Super Duplex Butterfly Valve is designed for easy maintenance and long service life. The use of a 904L shaft and Super Duplex body means that the valve is not only resistant to corrosion but also highly durable, capable of withstanding the wear and tear of daily operation in challenging environments. The wafer design further simplifies the installation process, as it fits easily between flanges without the need for additional support structures, making it a cost-effective solution for retrofitting or new installations.