Stainless Steel Welding

Challenge of Stainless Steel Welding

The welding of stainless steel requires good material knowledge, because the many different alloys and steel types also have varied weld properties. The aim is to maintain the positive properties of the material even after the welding process.

Interesting Facts About Stainless Steel

The purest form of steel

Stainless steel is the term used for alloyed and unalloyed steels with a particularly high level of purity. The proportion of sulfur and phosphorus, the elements accompanying the iron, is below 0.025%. Stainless steel does not have to be rust-proof, but in daily life the term rust-free steel is generally only used to refer to stainless steel.

Alloys

The most common alloy elements in stainless steel are chromium, nickel, molybdenum, titanium, niobium, vanadium and cobalt. From a minimum content of 12% chromium, stainless steel becomes resistant. On the surface, a thin layer of chromium oxide forms due to the influence of oxygen. This protects the steel beneath it from other chemical influences.

What types of steel are there?

A differentiation is made between several types of steel according to the components of their structure:

Austenitic steels

These steels are also known as chrome-nickel steels (CrNi steels) and have a nickel content of more than 8%. They offer good mechanical properties, are resistant to corrosion and acid and can be processed easily. They are mainly used in aggressive environmental conditions, such as in the chemical or food industry.

Ferritic steels

There are two types of ferritic steels. Their chrome content is either between 11 and 13% or around 17%. The former are only referred to as “corrosion-inert” due to their lower chrome content. They are used whenever a long service life and safety are important, while the optical appearance is less significant. Examples include container, wagon and vehicle construction.

Ferritic austenitic steels (duplex steel)

Due to having both ferrite and austenite structure components, these stainless steels are often also called duplex steels. They combine two particularly good properties: increased strength as rust-free chrome-nickel steel and increased ductility and formability as rust-free chromium steel. Due to its high resistance to surface corrosion, duplex steel is mainly used in the chemical and petrochemical industry, as well as in offshore projects.

Martensitic steels

These stainless steels have a chrome content of 12–18% and a carbon content of over 0.1%. They can be tempered by heating and quickly cooling, and have a high strength that increases as the carbon content rises. They are used, for example, in the production of razor blades, knives and scissors. However, they are less corrosion resistant than other stainless steels.

Advantages

Corrosion-resistant
Temperature-resistant
High-strength
Long service life

Disadvantages

Expensive parent material
Low tensile strength

What Needs to Be Considered During Stainless Steel Welding?

Almost any welding process can be used for welding stainless steel. When choosing the process, you should be guided by the type of component and the requirements for the weld seam. Pay particular attention to the choice of filler material: If the wrong filler metal is used, there is a risk that the welding point will not achieve the same strength as its surroundings. This may result in the steel at this point not only rupturing, but also rusting. Before welding, you must therefore be sure about what kind of stainless steel you are using and select the filler metal accordingly.

Welding Processes for Stainless Steel

MIG/MAG welding

Ideal if a higher deposition rate is required—for example when welding filler beads. More information about MIG/MAG welding

TIG welding

For visually perfect seams and strong connections. More information about TIG welding

Electrode welding

Easy to use and has varied applications. More information about manual metal arc welding

Professional Welding Systems for Stainless Steel Welding

Artis

DC-TIG welding system
Intuitive menu navigation
Can be expanded with optional function packages

Find out more about Artis

TPS 320i

MIG/MAG welding system
Integrated data documentation
Intuitive touch display

Find out more about TPS 320i

TransSteel 2700

MIG/MAG welding system
Comprehensive characteristic database
Perfect for steel and chrome-nickel applications

Find out more about TransSteel 2700

Artis

DC-TIG welding system
Intuitive menu navigation
Can be expanded with optional function packages

Find out more about Artis

TPS 320i

MIG/MAG welding system
Integrated data documentation
Intuitive touch display

Find out more about TPS 320i

TransSteel 2700

MIG/MAG welding system
Comprehensive characteristic database
Perfect for steel and chrome-nickel applications

Find out more about TransSteel 2700

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