• Nibco 9145650Pc, Pc641 Companion Flange P X Flange, 3
Nibco 9145650Pc, Pc641 Companion Flange P X Flange, 3

Nibco 9145650Pc, Pc641 Companion Flange P X Flange, 3"

4.5 stars, based on 40 reviews

USD 251.50

In stock

Nibco, 9145650PC, PC641, Steel Flange/Wrot Outlet, Companion Flange P x Flange, 3" The NIBCO Press System companion flange features an inboard bead and EPDM O-ring

Features Operating pressure 200 psi cwp Temperature range -20 deg F to 250 deg F Lead-free Dezincification resistant ASTM B75 Alloy C12200 Copper Complies with ASME B16/51 Performance Third party certified to UPC Third party certified to the performance requirements of CSA MSE 13 and PS-117

In addition to its inherent qualities of beauty, durability and low maintenance, copper's reusability makes it an ideal application in sustainable projects

NIBCO Press System applies the proven performance of press technology to NIBCO valves and fittings ndash the most specified flow control products in the industry

NIBCO Press System fittings are designed to join with seamless copper water tube in residential and commercial potable, hot, chilled and process water applications for plumbing and HVAC systems

NIBCO press fittings are the fastest, easiest way to join copper tubing systems

Please refer to NIBCO technical data sheets and catalogs for engineering and installation information

Simply applying pressure from a pressing tool tightens the O-ring onto the tube, ensuring a clean, watertight seal in seconds with no flame, solder or flux

The NIBCO Press Systefeatures a full range of precision engineered copper and copper alloy fittings, commercial valves, accessories, pressing tools, jaws and chains

The NIBCO Press System is user friendly, quick and easy to install

The companion flange has a copper press connection and steel flanged end connection

The fitting provides a method for adapting a press connection to a flange connection

The press fittings can also be installed underground

When properly crimped a unique quot N quot witness mark is clearly visible