Print Back
INTERFLEX (Roughbore) is a high-quality, general-purpose hose, constructed from a single strip of metal that is profiled and locked onto itself. The interlocked, or overlapping, sections of strip are able to slide back and forth, providing the ability to flex.
Unit of Measure

Specifications

Inside Diameter

N/A 13 in

Weight Per Foot (IN 18_(GS,SS,16,20))

N/A 6.7 lb

Minimum Bend Radius (IN 18_(GS,SS,16,20))

N/A 49 in

Weight Per Foot (IN 25_(GS,SS,20))

N/A 10.0 lb

Minimum Bend Radius (IN 25_(GS,SS,20))

N/A 53 in

Weight Per Foot (IN 30_(GS,SS))

N/A 11.9 lb

Minimum Bend Radius (IN 30_(GS,SS))

N/A 54 in

Weight Per Foot (IN 20 AL)

N/A 2.8 lb

Minimum Bend Radius (IN 20 AL)

N/A 54 in

Maximum Temperature (Low-Temperature Elastomeric)

N/A 200 ºF

Maximum Temperature (High-Temperature Elastomeric)

N/A 500 ºF

Maximum Temperature (Low-Temperature Fiber)

N/A 180 ºF

Maximum Temperature (High-Temperature Fiber)

N/A 1000 ºF

Maximum Temperature (Metal)

N/A 800 to 1200 ºF

Packing Type

N/A High-Temperature Elastomeric High-Temperature Fiber Low-Temperature Elastomeric Low-Temperature Fiber Metal

When to Consider Packing

When to Consider Packing

N/A Interlocked metal hose, by the nature of its construction, is not pressure tight. However, pressure and media infiltration through the interlocked wall can be minimized by the insertion of one of a variety of packings into the wall during hose manufacturing. Packing consists of a continuous cord or strand of elastomer, or other material which is locked into a special channel between the interlocked hose wall layers. The choice of packing material is tailored to the demands of the specific application.

Features

Features

N/A
  • Low-Temperature Elastomeric - Maximum Pressure and Vacuum
  • High-Temperature Elastomeric - Maximum Pressure and Vacuum
  • Low-Temperature Fiber - Economical
  • High-Temperature Fiber - Elevated Temperature
  • Metal - Extreme Temperature

Note

Note

N/A
  • Other diameters are available upon request
  • For packed hose add 10% to both weight per foot and minimum bend radius
  • Minimum bend radius is measured from the centerline of the hose