Austenitic stainless steels at cryogenic temperatures 1—Structural stability and magnetic properties☆

Abstract The structure and magnetic properties of some 15 austenitic stainless steels were examined after cyclic cooling treatments and low temperature deformation. Magnetic measurements at room temperature, 77 K, and 4.2 K and subsequent metallographic examination suggest that many of the AISI 300 stainless steels such as 301, 302, 303, 304, 304L, 305, 316L, 321, and 347 must be considered potentially unstable with respect to the formation of the ferromagnetic α′ martensite phase on repeated cooling to low temperatures. This structural instability was increased significantly after a sensitizing treatment in the weldable steels 304L, 321, and 347 leading to the formation of up to 11.2% a′ martensite, part of which formed isothermally. Low temperature deformation is even more potent in promoting the transformation, at least 50% α′ martensite being induced by deformation at 4.2 K in the otherwise stable alloys such as 309 and the 0.2% N versions of 304L and 316L. The high alloy steels 310 and Kromarc 55 remain fully a austenitic even after deformation to rupture at 4.2 K. The temperature dependence of the magnetic susceptibility of the latter alloys and Incoloy 800 indicates that their low temperature structural stability is associated with magnetic transitions which occur within the austenite phase.