OmegaFlex® Flexible Metal Hose and Braid Products
Corrugated metal hose allows for the transfer of liquids or gases, usually at high pressure and high or cryogenic temperature, while remaining flexible.
Annular hose is formed from tubing into individual parallel corrugations.
Helical hose is also formed from tubing but into a continuous spiral corrugation. Both designs allow for flexibility of the hose assembly under pressure. In addition, helical hose has unique self-draining properties.
Corrugated metal hose is normally manufactured in Standard Pitch(Close Pitch). Each manufacturer specifies a standard number of corrugations per foot based on their desire to provide for acceptable flexibility while considering economic requirements.
Open Pitch hose is also available and has fewer corrugations per foot. This hose will not be as flexible as a Standard Pitch hose and will have a much lower flexing cycle life. Open Pitch hose is intended to be used in less severe applications where flexibility and cycle life are not an important requirement or as an effective method for dampening vibration.
Superflex allows OmegaFlex to achieve greater flexibility without thinning the wall of the hose by increasing the number of corrugations per foot. Superflex will normally have a higher flexing cycle life and can be used in more severe applications where ease of flexibility is important.
Each manufacturer designs a hose with criteria for the wall thickness that considers flexibility, cycle life and corrosion resistance. Increasing or decreasing the wall thickness has both advantages and disadvantages to the user.
Metal wire braid on a hose assembly provides the hose assembly a higher pressure capability by acting as a restraint against hose elongation and acts to dampen vibration. A second layer of braid may be used to increase pressure ratings provided the test pressure is not exceeded.
Other design considerations may result in the use of a heavy braid to increase abrasion resistance characteristics.
Optimal braid coverage is engineered to contain the core under pressure and reduce the possibility of squirm. Properly designed braid coverage will balance pressure capability with flexing requirements. Minimization of braid wear on the crown of the corrugation is also provided by optimal braid coverage.
Tubular Braid is manufactured by grouping single wires and then braiding them into an intricate pattern that tightens when the braid is stretched. Such a group of wires is also known as a strand.
Construction of the braid is expressed as (number of carriers) x (number of wires in each group) x (wire diameter). An example would be 24 x 8 x .012 where 24 is the number of carriers on the braiding equipment, there are 8 wires in each strand of wires and the diameter of each wire is .012".
Larger diameter hose assemblies require the strength of Braided Braid. Braided braid is manufactured the same as tubular braid except that wires in the strand are braided together prior to the manufacture of the braid.
Construction is expressed the same as tubular braid except the use of parentheses around the groups of wire and the wire diameter. An example would be 128x (21 x .016) where 1 28 is the number of carriers, 21 is the number of wires in each group and .016" is the diameter of each wire in the braid.