Technical Information

What is a Metal Bellow?
Metal bellows are the essential component of expansion joints and compensators. They are produced by forming a cylinder first from thin rolled sheets of metals by specialized welding process for welding the seam and then forming circumferential convolutions on these cylinders as shown. Rarely seamless cylinders are used for smaller size bellows. Metal bellows only as intermediate components for the manufacture of expansion joints and compensators can be supplied if the purchaser has the technology to weld the end fittings to the thin walled bellows elements.
How does a Metal Bellow work?
The metal bellows are designed to contain the operating pressure of the pipeline while absorbing the movements and vibrations in the pipeline at the operating temperature. The metal bellows can basically absorb three types of movements or a combination of all the three as shown. Angular movement is the least severe of the three types and lateral movement is the most severe movement on the bellows. Although metal bellows can absorb torsional movement to a very small extent they are not designed for torsional movement and should be avoided by all means.
Formation of Metal Bellows from plain Cylinder

Different movements of Metal Bellows

Different movements of Metal Bellows
Lateral Movement
Different movements of Metal Bellows 01
Angular Movement
Different movements of Metal Bellows 02
Axial Movement
Spring Rate and Spring Force of Metal Bellows
The measure of the bellows flexibility is known as the spring rate of the bellows and is normally expressed in terms of force required to move the bellows through a specified movement. (N/mm) or (Nm/deg) for angular movement. Apart from pressure thrust the unrestrained bellows expansion joints also exert spring force on the anchors or equipments adjacent to them Which is equal to
SPRING FORCE FS = SPRING RATE K X MOVEMENT X
The spring rates for Axial, Lateral and Angular movements are design considerations and are provided by the manufacturer for the piping engineer to take them in to consideration for piping flexibility and stress analysis.

Different movements of Metal Bellows

Different movements of Metal Bellows
Lateral Movement
Different movements of Metal Bellows 01
Angular Movement
Different movements of Metal Bellows 02
Axial Movement
Bellows Components and Accessories
Bellows Components and Accessories
The flexible element of the pipe expansion joint consisting of one or more convolutions and end tangents. The wall can be made of single layer of thick plate or multi-layers of thin sheets.
The end of the piping expansion joint equipped with flanges for the purpose of bolting the expansion joint to mating flanges to adjacent equipment or piping.
The ends of the Pipe Expansion Joint equipped with pipe suitably beveled for welding to adjacent equipment or piping. These are also called as Pipe-Ends.

When the bellows is formed to cover the flange front face or the bellows attachment is flared so as to cover the front surface of the flange keeping it free to rotate then end is called as Vanstone end. The primary functions of the Vanstone end are as below:

  • To keep the flowing medium away from contact with flange face.
  • To provide easy fitment and bolting of the flanges if mating flanges are already fixed and cannot be rotated to match the hole orientation of the body flanges.

A device which minimizes the contact between inner surface of the bellows portion of the Piping Expansion Joint and the fluid flowing through it . It is also called as Liner.

A liner is used when it is necessary

  • To ensure smooth flow of the medium without turbulence at high velocities
  • To minimize friction losses
  • To minimize resonant vibration caused by high flow velocities
  • To reduce the effect of turbulent flow upstream of the expansion joint
  • To prevent the erosion of the bellows wall from abrasion or chemical attack

Internal liners or sleeves are provided when flow velocities exceed the following limits

  • For water and other liquids
  • Up to 150 mm diameter � 500 mm/s
  • Over 150 mm diameter- 3 m/
  • For air, steam and other gases
  • Up to 150 mm diameter �
  • 1.2m/s
    Over 150 mm diameter- 7.6 m/s
A reinforcing member located along the circumference of the bellows tangent for the purpose of reducing excessive pressure stresses which could lead to circumferential yielding.

Devices used on some pipe expansion joint fitting snugly in the roots of the convolutions. The primary purpose of these devices is to reinforce the bellows against internal pressure.

Equalizing rings are made of cast iron, steel, stainless steel or other suitable alloys and are approximately �T� shaped in cross section. Reinforcing or root rings are fabricated from tubing or solid round bars of carbon steel, stainless steel or suitable alloys.

These connections usually threaded are provided whenever required are provided at the sealed end of each internal sleeve of the piping expansion joint for the purpose of injecting a liquid or gas between the bellows and internal sleeve to keep the area clear of erosive and corrosive media and or solids that could pack the convolutions affecting the free movement.Purging may be continuous intermittent or just at start-up or shut-down as required.

These clips usually in the form of brackets which hold the external cover of the piping expansion joint assembly in place.
These attachments on the pipe expansion joint assembly normally on the flange outside diameter or pipe outside diameter provide the necessary holding of the bars and restrain/limit the movement across them.
These solid rings generally welded to the pipe outside diameter of the piping expansion joint assembly with weld ends provide a sturdy fitting for the tie rods and restrain/limit the movement across them.

CONTROL RODS- Devices usually in the form of bars or rods attached to the piping expansion joint assembly whose primary function is to distribute the movement between the two bellows of an universal expansion joint. Control rods are not designed to restrain the bellows pressure thrust and require proper guides and anchors in the pipeline.

TIE RODS- Devices usually in the form of bars or rods attached to the pipe expansion joint assembly whose primary function is to continuously restrain the full bellows pressure thrust during normal operation while permitting only lateral and angular movement. This is accomplished by two tie rods opposite to each other and located in a plain at 90� to the plain of movement.

LIMIT ROODS – Devices usually in the form of bars or rods attached to the piping expansion joint assembly whose primary function is to restrict the bellows movement range (axial, lateral, angular) during normal operation. In the event of main anchor failure they are designed to prevent the over extension or over compression while restraining the full pressure loading and dynamic forces generated by the anchor failure. However they do not restrain the pressure thrust during normal working and require proper guides and anchors in the pipeline.

These are rigid supporting devices usually in the form of brackets of angle or channels to maintain the overall length of the assembly for shipment. These devices may also be used to pre-compress or pre-extend or laterally offset the pipe expansion joints assembly . They should not be used to resist the pressure thrust during hydro-testing and should be removed after complete installation and before hydro-testing of the piping expansion joints.

Different movements of Metal Bellows

Different movements of Metal Bellows
Lateral Movement
Different movements of Metal Bellows 01
Angular Movement
Different movements of Metal Bellows 02
Axial Movement