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Enerfab works hand in hand with its customers to understand how fabrication and welding affect the corrosion resistance of their process equipment.
These proactive steps in research, development, engineering and project planning improve reliability, safety and profitability. Ongoing research and development efforts with Duplex grades help to better understand the material’s failures in the field and improve the material performance by analyzing the current weld procedures and pushing fabrication techniques beyond the guidelines set by the ASME code.
What is Duplex Stainless Steel?
Duplex Stainless Steel (DSS) combines high corrosion resistance with excellent mechanical properties and material strength to offer advantages when fabricating critical equipment for process industries. Like most stainless steel, its corrosion resistance affords longer service for fabricated process vessel equipment. However, the high allowable stress of DSS materials allows for the wall thickness of ASME Code pressure vessels and storage tanks to be thinner than 300 series stainless steel and other steel materials.
What must be considered when welding DSS
Owners, engineers and fabricators need to understand the unique properties and composition of Duplex Stainless Steel because incorrect welding and forming procedures can compromise the corrosion resistance and strength of the material during the fabrication process.
The unique properties of DSS are attributed to the compositional formulation and thermo-mechanical processing of a two-phase microstructure consisting of equal proportions of austenite face-centered cube (FCC) and ferrite body-centered cube (BCC). DSS depends on a partial solid-state transformation to austenite from ferrite. Phase balance can be altered by cooling rate and composition. Too much ferrite in the microstructure leads to loss of toughness and ductility and promotes nitride precipitation or nitrogen super-saturation in the ferrite. On the other hand, extensive austenite in the microstructure leads to a loss of material strength.
So, when welding DSS materials, one must consider weldability concerns that can lead to changes in composition and improper phase balance. If the cooling rate is too fast, it leads to excessive ferrite and possible loss of corrosion resistance. If the weld is too hot, it can lead to detrimental intermetallic phase precipitation and loss of material toughness.
The benefits of expertise and experience
Enerfab has been fabricating DSS process vessels and tanks since the 1980s. Its welding procedures have been refined over time to ensure proper voltage/amperage, travel speed and interpass temperatures to prevent rapid cooling or excessive heat. Using the proper filler metals retains the material strength and promotes austenite formation. Enerfab’s skills and experiences allow the team to implement DSS where it can be most beneficial.
But for Enerfab, the possibilities for DSS go beyond the welding procedures and current fabrication techniques outlined by the ASME code. The company works closely with its customers to understand where equipment from other fabricators has failed in the field to develop a plan to correct those issues moving forward. Enerfab regularly contributes weld samples for industry corrosion studies and has assisted in setting industry guidelines for the selection and use of flux-corded arc welding and gas metal arc welding processes. It has participated in research and development studies with fellow industry experts to develop solution annealing processes that eliminate the risk of detrimental phase formation and subsequent cracking in DSS and super duplex stainless steel (SDSS).
DSS offers unique possibilities for process equipment, but it requires experience and expertise to ensure fabrication upholds the strength and corrosion resistance DSS provides. From the shop to the field, Enerfab works with its customers to reduce the risk of equipment failure and provide the best value and outcome for their process.
For more information, visit enerfab.com.