Stainless Steel Flanged 3 Way Full Bore Ball Valve – PN16
The Stainless Steel Flanged 3 Way Full Bore Ball Valve – PN16 is a premium flow diverting and mixing solution designed for high-performance process applications. Manufactured from corrosion-resistant ASTM A351 CF8M 316 stainless steel, this 3 way valve offers robust construction and excellent compatibility with a wide range of media, including aggressive chemicals, water, steam, and gas. The full bore design ensures unrestricted flow, minimizing pressure drop and allowing for efficient media handling in industrial systems.
Featuring a flanged PN16 connection, this valve is ideal for integration into pipeline systems conforming to EN 1092-1 standards, ensuring a secure, leak-free fit. The precision-engineered ball operates smoothly between the three ports, offering versatile flow configurations such as L-port or T-port depending on the internal bore design (sold according to specification). Fitted with high-performance TFM 1600 PTFE seats, the valve maintains tight sealing and exceptional chemical resistance, even under demanding conditions. Designed and tested to MSS SP-110 standards, it provides a reliable and serviceable solution for flow control and diversion.
Key Features:
Body Material: ASTM A351 CF8M 316 Stainless Steel – provides excellent corrosion resistance and long service life
Seats: TFM 1600 PTFE – ensures chemical compatibility and reliable sealing
Design Standard: MSS SP-110 – guarantees dimensional accuracy and durability
Connection Type: Flanged PN16 – conforms to EN 1092-1 for ease of integration into standard flanged systems
Bore Type: Full Bore – allows maximum flow with minimal restriction
Flow Configuration: 3 Way design – enables media diversion, mixing, or shutoff control
Pressure Rating: PN16 – suitable for a wide range of low to mid-pressure industrial applications
Whether used for blending, diverting, or isolating media flow, this Stainless Steel Flanged 3 Way Ball Valve is engineered for dependable performance, easy installation, and long-term reliability in demanding processing environments.
