Article ID Journal Published Year Pages File Type
1647673 Materials Letters 2011 4 Pages PDF
Abstract

A new alumina-forming austenitic stainless steel with greatly improved high-temperature oxidation resistance and strength was developed via alloying 3.0 wt.% Al in the Fe-25Ni-18Cr based alloy. Continuous, stable and exclusive alumina scale was formed in either dry air or air with 10% water vapor mixed environment at 800 °C. The long-term high-temperature oxidation performance is appreciably enhanced which is associated with the high density of the B2-NiAl precipitation phase maintaining the Al2O3 surface layer. Moreover, when tested at 750 °C in dry air environment, the new steel showed high yield and fracture tensile strength of 310–335 and 480–500 MPa, respectively.

► A new austenitic heat-resistant steel with improved properties was developed. ► The new steel showed high yield and fracture tensile strength. ► The long-term high-temperature oxidation performance is appreciably enhanced.

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Physical Sciences and Engineering Materials Science Nanotechnology
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