The working concept of a pipe bending machine

by Jessica Braganza

Posted on July 26, 2021 at 12:15 PM

The working concept of a pipe bending machine >


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Tube bending is a metal forming method that is used to shape pipe or tubing indefinitely. Bending is an integral element of the industrial pipe and tubing production process. Pipe can be bent into single or many bends and angles, depending on the application's requirements.

Depending on what the pipe will be used for, a variety of methods are employed to bend it. When pipes and tubes are bent, they can be used for structural purposes, such as handrails, handlebars, vehicle frames, and furniture, or they can be used to carry gases and liquids, such as water lines, hydraulic systems, and exhaust lines.

What happened when the pipe is bent?

Tube bending begins with a tube being loaded into a pipe bender and clamped between two dies, the clamping block and the shaping die. Two additional dies, the wiper die and the pressure die, hold the tube loosely.

Bends are created by pressing the tube against a die, which causes it to change form. Pushing a pipe through rollers to force it into a curve is another option.

If you are bending pipes or tubes you need to take notes of the following considerations:

1. Size and wall thickness of the workpiece

2. Materials to be bent

3. Number of bends in the part

4. Proximity of the bends to one another (distance between bends, if any)

5. Plane of bend relationship to one another

6. Production rates

7. Finished part tolerances (such as for wall thinning and point-to-point dimensions)

8. Centreline radius of the bends

9. The initial cost of equipment (plus training, service, support, repair parts, and tooling)

10. Return on investment

The basic tools that are used in pipe bending

1. Bend die – tube bent over to create an angle

2. Clamp die – holds other side of bend die in place

3. Pressure die – holds tube on top of bend

4. Wiper die – holds tube under bend

When a pipe is bent, the outside wall thins out owing to stretching, while the internal wall thickens due to compression.

Four main factors are involved in bending tube:

  • Material – wall thickness
  • Machine
  • Tooling
  • Lubrication needed
  • Types of bending process

    The basic tools used in pipe bending are

  • Bend die – tube bent over to create angle
  • Clamp die – holds other side of bend die in place
  • Pressure die – holds tube on top of bend
  • Wiper die – holds tube under bend
  • Ram type:

    A hydraulic ram is used to push metal against rollers of the ram type. It is the most basic and cost-effective way of tube bending. When ram bending a tube, the interior and outside of the bend are prone to distort into oval forms. This technique produces pipes that are used to bend electrical conduit.

    Roll bending:

    When massive bends are required, roll bending is utilized to run the pipe over rollers. The pipe is just slightly deformed as a result of this. Pipe coils are made using the roll bending method.

    Compression bending:

    is a basic way of bending tubing around a bend die using a roller. On building sites, it's utilized to bend electrical conduit. Compression bent pipes should not be utilized for short radius bends since the pipe may buckle and break.

    Rotary draw:

    bending, which employs die sets, is used for more difficult jobs, such as when a pipe's diameter must remain consistent along its length. Handrails, decorative ironwork, and vehicle chassis are all made with Rotary Draw products.


    Tubing is shaped using a mandrel. The mandrel is put within the tube to protect it from damage and wrinkling, as well as to avoid ovalization. Exhaust pipes, dairy tubing, and heat exchanger tubing are all constructed with mandrel pipes.

    Problems with pipe bending:

    Due to the bending of the pipe, the outside wall becomes thinner. While the inside wall is compressed it becomes thicker. This can cause various types of problems such as.

  • Wrinkling.
  • Hump on outside of pull off end.
  • Scratches in clamp area.
  • Ball segment bumps in bend area.
  • Scratches on inside of bend area.
  • Tooling marks on centreline.
  • Spring back – too much or too little.
  • Collapse.
  • Tearing.

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