Austenitic steels are the 300- and 200-series grades, containing chromium/nickel or chromium/nickel/manganese. Ferritic stainless steels, the 400-series grades, are low in carbon and contain chromium.
Duplex stainless steels combine the best of both worlds, but what exactly is it?
Duplex stainless steels undergo a chemical change as they are melted and then solidify. As they harden, they become entirely ferritic. Then, as they cool to room temperature, somewhere around 50% of the ferritic grains become austenitic grains.
This process creates what is known as a 2-phase microstructure, and it helps overcome some of the drawbacks to both austenitic and ferritic stainless steels. The process improves:
The duplex structure provides some notable qualities, including:
This isn’t to say that duplex stainless steel is always the right choice. However, making it part of the mix in decision making could lead to greater durability and lower cost.
Both hot and cold forming can be used to shape duplex stainless. However, some modifications are necessary to the methods used for ferritic and austenitic steels alone.
The equipment used in cold forming duplex stainless steel rolls must have the power to do the job because of the steel’s high strength. Loosely speaking, cold forming duplex stainless is like performing the process on a double layer of 300-series austenitic grade steel.
Another consideration is bend radius. Because duplex stainless steels have lower ductility than austenitic, they also have a lower required elongation. Thus they need a larger bend radius or intermediate solution annealing.
Other fabrication challenges with duplex stainless include a higher rate of springback than austenitic, owing to higher strength. Manipulating duplex stainless simply requires a higher bending force.
Temperature is important when hot forming duplex stainless steels. If the temperature is too low, the ferrite in the steel can crack in areas where deformation has occurred. Too-low temperature can also precipitate the sigma phase, which causes brittleness. At too-high temperatures, duplex steel can become soft. If it’s not supported, it can warp or sag.
Hot-formed duplex stainless steel must be full-solution annealed and then rapid-quenched. Otherwise, the advantageous properties, including corrosion resistance, will not return.
This quick review of the properties, advantages and cautions concerning duplex stainless steel is meant only as a primer. Many other factors need to be considered before using duplex stainless in a particular application. To ensure the best results, it’s important to consult a metal fabricator.
A metal fabricator can not only help guide you to choosing the right material but can help you design a great roll formed component overall. Alternatively, you can download our free guide below to get you started.
Editor's note: This article was originally published in September 2018, and has recently been updated.