Guidelines for Welding Process Selection

There are number of welding processes available; however, their application is dictated by the mechanical properties, type of welded joints, their quality required in the service condition, cost and availability of the machine and operators skill.

Below discussion gives a comparative study of the different joining processes, their applicability to different types of materials and helps the welders in selecting suitable welding process.

1. Shielded Metal Arc Welding

Shielded metal arc welding process is widely used in many industries. All engineering materials can be welded. however, low melting and high reactive metals will be difficult to weld. this process is easy to operate and plates of thickness ranging from 1 mm to 25 mm can be easily welded. Preheating will be required in some alloy steels. welding can be done in flat, inclined, vertical and overhead position. Edge preparations are essential in welding thick plates.

Manual arc welding is commonly used in the erection of structural works like storage tanks, bridge etc. In open breezy conditions flux cored self shielded welding is better suited. Heavier plates are usually groove welded.

TIG welding process is extensively used for welding cupronickel (70:30 alloy) for water pipe and condenser tubes. while welding carbon and alloy steel pipes by MMA (Manual Metal Arc) process for steam, power plants, backing rings are rarely used for piping in oil refineries and chemical plants.

2. Submerged Arc Welding

With Submerged arc welding (SAW), carbon and alloy steels and copper alloys can be welded; generally applied for plate thickness above 10 mm. Best suited for automatic welding in boilers, pressure vessels, ship building where high quality welds for larger thickness plates are required. This process is generally used for flat and horizontal positions. Not suitable for cast iron.

3. Oxy-acetylene Gas Welding

Oxy-acetylene gas welding process can be used for carbon steel, copper, aluminium, bronze welding, Sheet metal welding. Small diameter pipe welding can be effectively carried out. Control of the flame is important, Plates of thickness upto 8 mm – 10 mm can be welded. Red brass and yellow brass are preferably welded by oxy-acetylene process to minimize vaporization of zinc.

4. Gas metal arc welding (TIG and MIG)

All engineering material except zinc can be welded using gas metal arc welding (GMAW) process The thickness of the plates ranges from 1 mm to 6 mm. TIG  welding process is applied to all non-ferrous and alloy steel welding and also for root pas in pipe welding. Welding equipment is more complex and costly. difficult to weld small corners and, out-door applications are limited. MIG welding process in semi-automatic or fully automatic form is used for non-ferrous and stainless steel pressure vessel parts. In In the manufacture of boiler units, large number of tube butt welds have to be made with the tubes positioned at any angle from horizontal to vertical, with restricted access. In such cases automated orbital TIG welding with automatic cold wire feed is used. titanium alloy tubes with wall thickness 1.6 mm and below are normally welded by TIG process without filler wire. For heavier pipes, filler metals are used.

5. Spot, Projection and steam welding

These processes meant for sheet metals are widely applied applied in automobile parts, tube manufacturing parts and sheet metal industries. all engineering metals can be welded. precautions are necessary in the case of copper and aluminium alloys which are good thermal and electrical conductors.
Flash or induction welding is used for tubular joints in boiler construction. At site, such welds are made by TIG for the root pass and manual metal arc welding for subsequent passes. Seam welding is normally limited to sheets upto 5 mm thick. Baffles and other interior parts are spot welded in place. A typical application of projection welding is in the manufacture of honey comb panels. Propeller and drive shafts are commonly made from resistance welded tubing with the end forging are welded by submerged arc or MIG/CO2 process.

6. Electro-slag Welding

Electro-slag welding (ESW) process is  for thick section welding, 5 cm and above, of alloy steels, This is mainly used for pressure vessel parts, steel plant equipments, large shafts etc. Both Electro-slag welding and Submerged-arc welding (SAW) are best suited for thick plates; however, ESW is more specialized in its application and less flexible compared to SAW.

7. Electron and laser beam welding
Stainless steel, nickel base alloys, titanium and zirconium and other reactive metals upto 10 to 25 mm can be welded. Special applications are in electronic industries, nuclear and aerospace industries. The process is rather costly. Laser welding has the ability to make tiny spot welds. so it is applied in micro electronic circuits. laser beam can weld metals on silicon and germanium.

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