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              Ferritic Stainless Steel Grades

              Ferritic stainless steels are classified in the 400 series, usually with 10% to 30% chromium content, and are often chosen for their excellent corrosion resistance and elevated temperature oxidation resistance. With greater strength than carbon steels, ferritics provide an advantage in many applications where thinner materials and reduced weight are necessary, such as automotive emission control systems. They are nonhardenable by heat treating and are always magnetic. Typical applications for ferritic stainless steels include petrochemical, automotive exhaust systems and trim, heat exchangers, furnaces, appliances and food equipment to name a few.

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              Product Applications

              Available Grades

              Available GradesDownloads

              409 ULTRA FORM?

              409 Ni

              41003

              410S

              11 Cr-Cb?

              15 Cr-Cb?

              THERMAK? 17

              430

              430 ULTRA FORM?

              439

              441

              18 Cr-Cb?

              13-4 SR?

              18 SR?

              436 / 435 Mod

              436L ULTRA FORM?

              444

              CHROMESHIELD? 22

              CHROMESHIELD? 29 Mo

              Aluminized 409 / 439

              Product Details

              Corrosion Resistance

              Ferritic stainless steels can have good to excellent corrosion resistance depending on the chemical composition of the specific grade. Corrosion resistance is primarily determined by the chromium content. Those steels with molybdenum additions have improved pitting corrosion resistance. Ferritic grades are resistant to chloride stress corrosion cracking (SCC). The unstabilized ferritic grades can be susceptible to intergranular corrosion after certain high temperature exposures, including welding. For applications that require welding a post-weld heat treatment and a stabilized grade is recommended.

              Formability

              Ferritic stainless steels can be formed by blanking, bending, drawing, and spinning. Their low work hardening rate limits stretch forming somewhat. Caution should be used when forming ferritic stainless steels in thick sections as they have poorer notch ductility than other stainless steels.

              Our ULTRA FORM? technology results in a uniform grain structure, improved plastic strain ratio and improved riding and roping allowing these steels to be formed into more complex shapes than is possible with standard ferritic stainless steels.

              Weldability

              Ferritic stainless steels can be welded using the common fusion and resistance welding techniques. The metallurgical structure of the ferritic alloys imposes some restrictions on welding. The unstabilized grades can form martensite in the heat affected zone leading to a loss of ductility. The grades stabilized with titanium and/or niobium have improved ductility in the as-welded condition. Welded joints can exhibit low ductility and toughness due to grain growth, especially in heavy sections. Post-weld heat treatments will often improve the ductility of weld zones.

              Oxidation Resistance

              The ferritic stainless steels exhibit excellent resistance to oxidation, or destructive scaling, at high temperatures. This resistance is due to the formation of a tightly adherent chromium-oxide right film on the surface of the steel. The oxidation resistance is proportional to the chromium content. Additions of silicon and aluminum improve the oxidation resistance even further. The low thermal expansion coefficient of ferritic stainless steels allow these steels to resist spalling and perform exceptionally well even in harsh cyclic high temperature service.

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