Stainless Steel Tube Fittings
Filter Products
Item # and Description
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Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).
Cardinal UHP fittings undergo a thorough preparation process to insure corrosion resistance as well as stringent dimensional specifications for economical installation. They begin the process with a heavier wall to offset the thinning that occurs during manufacturing. First, welds are mechanically polished, and when required, fittings are electropolished and passivated. All welds are 100% visually inspected and mass spectrometer helium leak tested to 1x10 -9 cc/sec. Finally, the fittings are cleaned, capped, and bagged to meet the required specification(s).