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Stainless steel is a critical material in a range of industries. Without it, the dairy, food, and beverage industry would have great difficulty in keeping food safe while producing it in industrial quantities. Similarly, the chemical and biopharmaceutical industries would find it impossible, or at least uneconomical, to operate as they presently do. Stainless steel is a vital material and, in many ways, a real-life example of a wonder material.
It should come as no surprise that there are many types of stainless steel welding. A material with uses in everything from dental crowns to rockets has equally wide use in industry. As a consequence, the need to weld stainless steel has resulted in a plethora of types of stainless steel welding.
Stainless steel is notoriously prone to heat distortion during welding. This is a larger issue when dealing with thin-walled materials or materials where alignment is especially important, like stainless steel tube welding. Certain types of stainless steel welding mitigate this issue by minimizing heat input, but do so at the price of speed. These processes become prohibitive in welding thick-walled materials, as they extend the time to completion. Others make quick work of welding thick-walled stainless steel, but cannot be used on thin-walled materials. An overview of these different processes can be seen in the table below.
Complicating the choice of stainless steel welding types still further is that there are different types of stainless steel, each with its own properties. In most daily applications, the differences in stainless steel due to these properties are largely immaterial. However, in very high-specification welding for industries like petrochem, biopharmaceuticals, and thermal power generation, these unique properties and how they react to different types of stainless steel welding can matter greatly.
Different alloys like 316 L vs. 316 or 304 are pretty common knowledge. Less common is knowledge of the differences between ferritic vs. austenitic stainless steels or ferritic vs. austenitic vs. martensitic. A rough breakdown of how these different types of stainless steel function is below.
The different properties of these metals need to be accounted for in selecting a welding process and the filler materials used during welding. The choice of stainless steel electrode for SMAW welding needs to account for both the position of welding and whether the workpiece will be ferritic or austenitic. Weld positioning also plays a substantial role in the choice of fill material as elements like silicon in the fill material can enhance flow, allowing greater penetration in the flat but possibly interfering with fusion in the vertical and overhead positions.
Gas-shielded arc welding processes like GTAW and GMAW can have these interactions. However, they are, to an extent, reduced due to the fact that the removal of shielding fluxes removes some of the potential chemical interactions between stainless steel and other elements.
Both GMAW and GTAW allow for starting and sustaining arcs at lower voltages compared to other welding processes. This minimizes heat distortion. As they are gas-shielded, chemical interactions are also reduced. These are significant advantages in ensuring consistent welds and reliably getting those consistent results.
They are, however, not without their disadvantages. GMAW can have issues with fusion and penetration. GTAW provides high-quality welds with excellent fusion in all regards. As previously mentioned, though, it is a very slow process, assuming that a skilled operator is available. GTAW has a very high bar for qualification and certification of acceptable welds.
There are solutions available for GTAW, though. Automation has allowed for the creation of welds far above what even skilled manual welders can produce in shorter time frames. Hot wire GTAW—which preheats the fill material before it enters the puddle—enhances the speed of deposition and welding overall, although it still is a relatively slow process compared to other welding types. A GTAW root pass combined with GMAW cap passes can provide the optimum combination of types of stainless steel welding, producing high-quality welds at speed.