Repair and Maintenance Welding

There are probably more welders employed Fabrication welding and considerably low volume of welders are capable in Repair and Maintenance welding. The main reason is for the same is repair and maintenance welding is difficult compared to fabrication welding. This is the reason that most welding utility services category has very few experienced welders and they charge very high bills for their service.

Repair welding and surfacing are both considered in the field of maintenance welding and are covered together since they are both done by the same welders. Often it is extremely difficult to separate what is considered repair welding from maintenance welding, and surfacing can be included in both situations. The same basic factors apply to both weld repair and surfacing.

Parts break and wear out continually. It may be impossible to obtain another part exactly like the one that broke or wore out. This is particularly true of older industrial machinery, construction machinery, agricultural machinery, machine tool parts, and even automobiles. Repaired parts may be more serviceable than the original part, since they can be reinforced and the weaknesses of the original part can be corrected. It is often more economical to weld repair since the delay in obtaining the replacement part could be excessive and the cost of the new part would normally exceed the cost of repairing the damaged part.

Weld repair is commonly used to improve, update, and rework parts so that they equal or exceed the usefulness of the original part. This is normally attained, with the possible exception of weld-repaired cast iron parts that are subjected to heating and cooling. Weld repairs on cast iron parts subjected to repetitive heating and cooling may or may not provide adequate service life. The problem is that cast iron parts subjected to high-temperature heating and cooling, such as machinery brakes, furnace sections, etc., fail originally from this type of service and due to metallurgical changes the weld may fail again without providing adequate service life. Except for emergency situations, it is not wise to repair cast iron parts of this type.

The metal that the part to be repaired is made of has a great influence on the service life of the repaired parts. Parts made of low-carbon and low-alloy steels can be repaired without adversely affecting the service life of the part. On the other hand, high-carbon steels may be weld repaired but must be properly heat treated if they are to provide adequate service life.

It is absolutely essential that we know the type, specification, or composition of the metal that we are planning to weld. As mentioned above, it may be unwise to weld repair certain metals. But we should not weld on any metal unless we know its composition.

 

The economics of weld repairing are usually very favorable and this applies to the smallest or the largest weld repair job. Some weld repair jobs may take only a few minutes and others may require weeks for proper preparation and welding. Even so, the money involved in a repair job may be less than the cost of a new part.

A part made of any metal that can be welded can be repair welded or surfaced. In fact, some of the metals that are not normally welded can be given special surfacing coatings by one process or another. All the arc welding processes are used for repair and maintenance work. In addition the brazing processes, the oxy-fuel gas welding processes, soldering, thermit welding, electro slag welding, electron beam welding, and laser beam welding are also used. The thermal spraying processes are all widely used for surfacing applications. In addition, the various thermal cutting processes are used for preparing parts for repair welding.

The selection of the appropriate preparation process and welding process depends on the same factors that are considered in selecting a welding or cutting process for the original manufacturing operation.

Why do we need different welding systems?

Welding methods can be classified by the method used in producing the welding heat and the way the filler material is fed into the weld. The welding method used is selected based on the materials to be welded and the material thickness, the required production efficiency and the desired visual quality of the weld.

The most commonly used welding methods are MIG welding, TIG welding and manual metal arc welding. The oldest, most known and still fairly common process is manual metal arc welding, which is commonly used in installation workplaces and outdoor sites that demand good reachability.

The slower TIG welding method allows for producing extremely fine welding results, and therefore it is used in welds that will be seen or that require particular accuracy.

MIG/MAG welding is a versatile welding method, in which the filler material need not be separately fed into the molten weld. Instead, the wire runs through the welding gun surrounded by the shielding gas straight into the molten weld.

There are also other welding methods suitable for special needs, such as laser, plasma, spot, submerged arc, ultrasound and friction welding.

Fabrication Welding and Maintenance Welding

In most of the production processes welding comprises a major share over other conventional non-conventional processes. Production welding is generally done under optimum conditions because the specifications are set, appropriate equipment is provided for,

chemistry of the base metal is known, the parameters are readily controlled and / or controllable and if necessary, prototypes can be made and subjected to destructive tests to confirm physical properties of welds.

In contrast, maintenance and repair welding present wide disparities compared to production welding. Welding alloys and methods of application must posses special features to overcome handicaps successfully like Fatigue, Unknown Base Metal, In-situ welding, Distortion / Warp age, Limited access etc. 

Special Welding procedure has to be followed critically and trained personnel are required to execute the job.

Repair welding and surfacing are both considered in the field of maintenance welding and are covered together since they are both done by the same welders. Often it is extremely difficult to separate what is considered repair welding from maintenance welding, and surfacing can be included in both situations.

The same basic factors apply to both weld repair and surfacing.
Repaired parts may be more serviceable than the original part, since they can be reinforced and the weaknesses of the original part corrected. It is often more economical to weld repair since the delay in obtaining the replacement part could be excessive and the cost of the new part would normally exceed the cost of repairing the damaged part.

Welding Process and Its Theory

Welding is the method in which metals are joined together by melting them and using a filler to join the parts. To weld, a combination of heat and pressure is used.

There are various methods that are followed after the advent of electricity. Now different sources of energy are used for welding purposes - gas flame, electric current, laser, electronic beam, friction and ultra sound. Some of them are Arc welding, Gas welding and Resistance welding.

The method that is mostly used is arc welding (SMAW). This is also called stick welding. In this, inexpensive equipment is used and a continuous supply of AC or DC is required with constant voltage. Welding is done by an electric arc between the electrode and the base metal. At the point of welding, the metal is melted. Shielding gas generated from coated flux protects the welding area. The work is done speedily. It has a high concentration of heat and distortion may incur.

 

Some of the other processes are - gas tungsten arc, gas metal arc and submerged arc.

Gas welding is generally used for repair work and welding of materials that cannot withstand high temperatures. This includes repairing pipes and tubes, welding plastics, making jewelry etc.

 

Resistance welding needs costly equipment and it cannot be used in all situations. In this method additional sheets of metal are used to encase the pieces that have to be fused together.

The latest method is laser welding or energy beam welding. It is very fast and the accuracy is perfect, but it is too expensive for all purposes. Electron beams are also used. This is greatly automotive and aerospace industry.

Welding can be done only on certain metals. When it comes to alloys, it is difficult to know its composition and hence can create a problem when it is welded. Stainless steel tends to crack and distort when fused.

In many manufacturing units, welding has become automated and robots are used in many areas. Welding is not only done indoors in manufacturing units, it can be done outdoors too. It can be done underwater, where ships and pipelines underwater have to be repaired. Its use in space is also being researched.

It is very essential to be very careful while welding. A welder requires a good welding gear which includes a welding helmet, welding gloves and a heavy jacket. The eyes can be damaged if you do not protect your eyes when you see the arc. The fumes from welding can also be highly toxic. You can also get electric shock, burns, and overexposure to ultra violet rays. So, extreme care should be taken by the welder, while welding. One should have welding hoods, eye protection, face protection, welding gloves, first aid kit, hearing protection, respiratory protection and any other protective gear that will be of help to the welder.