What Is Friction Welding?- Working, And Application

What Is Friction Welding?

Friction welding is a solid-state welding technique that welds workpieces by generating heat through mechanical friction between workpieces in relative motion to one another, with the addition of a lateral force called “upset” to plastically displace and fuse the materials.

Because no melting occurs, friction welding is not a fusion welding process, but a solid-state welding technique more like forge welding. Friction welding is used with metals and thermoplastics in a wide variety of aviation and automotive applications.

In reality, an apparently smooth surface consists of many microscopic projections, called asperities. When one surface moves relative to another these asperities interact, generating friction the force resisting motion between two or more interacting surfaces.

The interaction of these asperities through elastic and plastic yielding generates heat. Friction welding utilizes this phenomenon for joining applications. The induced mechanical motion of friction welding generates heat, causing the materials to be joined to soften and become viscous. While in the softened state, the mechanical motion of the process mixes the materials to create a bond.

The way by which the frictional heat and material mixing occur is very dependent on the friction welding process utilized, of which there are four primary processes: Friction stir welding (FSW), friction stir spot welding (FSSW), linear friction welding (LFW) and rotary friction welding (RFW).

How does friction welding work?

Friction Welding

FSW works by using a non-consumable tool, which is rotated and plunged into the interface of two workpieces. The tool is then moved through the interface and the frictional heat causes the material to heat and soften.

The rotating tool then mechanically mixes the softened material to produce a bond. FSSW is a variant of FSW and works by rotating, plunging, and retracting a non-consumable tool into two workpieces in a lap-joint configuration to make a “spot” weld. During FSSW there is no traversing of the tool through the workpieces.

LFW and RFW do not require a non-consumable tool, i.e., the individual workpieces to be joined are used to generate the frictional heat and mechanical mixing. LFW works by linearly oscillating one workpiece relative to another while under a compressive force.

The friction between the oscillating surfaces produces heat, causing the interface material to soften and mechanically mix. RFW is similar to LFW except that the workpieces are often round and are rotated relative to each other. During LFW and RFW the workpieces typically shorten (“burn-off”) in the direction of the compressive force, forming the flash.

During the burn-off interface contaminants, such as oxides and foreign particles, are expelled into the flash. Once free from contaminants, pure metal-to-metal mixing occurs, resulting in an integral bond. Although the generated temperatures during friction welding are very hot, the material remains in a solid-state condition (i.e., no melting occurs).

Applications

Friction welding can be used to build better industrial rollers, tubes, and shafts. The process is often used to manufacture these subassemblies for industrial printers, material handling equipment, as well as automotive, aerospace, marine, and oil applications.

Other examples of components include gears, axle tubes, drivelines, valves, hydraulic piston rods, truck roller bushes, pump shafts, drill bits, connection rods, etc.

Advantages Of Friction Welding

  • Enables joining of dissimilar materials normally not compatible with welding by other joining methods.
  • Creates a narrow, heat-affected zone
  • Consistent and repetitive process of complete metal fusion
  • Joint preparation is minimal – a saw-cut surface is used most commonly
  • Faster Turn-around Times – compared to the long lead time of forgings, which is currently 6 months or longer.
  • Greatly increases design flexibility – choose the appropriate material for each area of a blank
  • Suitable for diverse quantities – from single prototypes to high-volume production
  • No fluxes, filler material, or gases required
  • Environmentally friendly process – no fumes, gases, or smoke generated
  • Solid state process – no possibility of porosity or slag inclusions
  • Creates cast or forge-like blanks – without expensive tooling or minimum quantity requirements
  • Reduces machining labor, thereby reducing perishable tooling costs while increasing capacity
  • Full surface weld gives superior strength in critical areas
  • Reduces raw material costs in bi-metal applications. Expensive materials are only used where necessary in the blank.

Disadvantages of friction welding

  • This process is used for only round bars of the same cross-section.
  • Limited to angular and flat butt joints.
  • The set-up cost is very high.
  • Preparation of the workpiece is difficult.
  • Non-forgeable material cannot be welded.
  • It can only be used for smaller parts of machines; big parts are not compatible with it.

FAQs

What is the friction welding process?

Friction welding (FWR) is a solid-state welding and bonding process that generates heat through mechanical friction between workpieces in relative motion to one another. The process is used with the addition of a lateral force called “upset” to plastically displace and fuse the materials.

Is friction welding the strongest weld?

Since a friction weld is stronger than conventional welds, it requires less raw materials to achieve the same fatigue and torque characteristics of the conventional part. This means a reduction in both raw materials costs and post-welding machining time to remove extra material.

How well does friction welding work?

Friction welding allows cost savings (process time, material costs). Dissimilar materials can be welded; which are impossible to weld with other processes, such as aluminium or copper to steel. Very good reproducibility and possibilities for automation.

What is another name for friction welding?

The way by which the frictional heat and material mixing occurs is very dependent on the friction welding process utilised, of which there are four primary processes: Friction stir welding (FSW), friction stir spot welding (FSSW), linear friction welding (LFW) and rotary friction welding (RFW).

What are the disadvantages of friction welding?

Disadvantages of Friction Welding
1. Limited to Metals.
2. Requires skilled operators.
3. High initial investment cost.
4. Not suitable for large objects.
5. Not suitable for sensitive materials.

What metals can be friction welded?

As a rule, all metallic engineering materials which are forgeable can be friction welded, including automotive valve alloys, maraging steel, tool steel, alloy steels and tantalum. In addition, many castings, powder metals and metal matrix composites are weldable.