Abstract: A method for making a corrosion resistant, ferritic steel alloy, with reduced magnetic coercivity is disclosed. The process includes the step of providing an intermediate form of a ferritic alloy consisting essentially of, in weight percent, about______________________________________ Carbon 0.02 max. Manganese 1.5 max. Silicon 3.0 max. Phosphorus 0.03 max. Sulfur 0.1-0.5 Chromium 8-20 Nickel 0.60 max. Molybdenum 1.5 max. Copper 0.3 max. Cobalt 0.10 max. Aluminum 0.01 max. Titanium 0.01 max. Nitrogen 0.02 max. Iron Balance ______________________________________The intermediate form of the alloy is given an annealing heat treatment at a first temperature in the range of about 700.degree.-900.degree. C. for at least about 2 hours. After the penultimate annealing step, the intermediate form is cold worked to reduce its cross-sectional area by about 10-25%, thereby providing an elongated form of said alloy.

Abstract: A soft magnetic article is disclosed which is formed of an alloy consisting essentially of, in weight percent, about______________________________________ C 0.003-0.02 Mn 0.10 max. Si 0.10 max. P 0.01 max. S 0.003 max. Cr 0.1 max. Ni 0.2 max. Mo 0.1 max. Co 48-50 V 1.8-2.2 Nb 0.15-0.5 N 0.004 max. O 0.006 max. ______________________________________with the balance essentially iron. The article is annealed at a temperature of not more than 740.degree. C. (1364.degree. F.) for not more than about 4 hours and provides a room temperature yield strength of at least about 620 MPa (90 ksi) in the annealed condition. Among the disclosed embodiments of the annealed article according to this invention are a rotor and a stator for a rotating electrical machine such as a motor, generator, alternator or a magnetic bearing.

Abstract: A ferritic alloy, having an improved combination of magnetic properties and corrosion resistance, contains, in weight percent, about______________________________________ % ______________________________________ Carbon 0.03 max. Manganese 0.5 max. Silicon 0.5 max. Phosphorus 0.03 max. Sulfur 0-0.5 Chromium 10-13.0 Molybdenum 0-1.5 Nitrogen 0.05 max. Titanium 0.01 max. Aluminum 0.01 max. ______________________________________and the balance is essentially iron. The alloy, and articles made therefrom, provide higher saturation induction than known corrosion resistant, magnetic alloys.

Abstract: A ferritic alloy, having an improved combination of magnetic properties and corrosion resistance, contains, in weight percent, about______________________________________ % ______________________________________ Carbon 0.03 max. Manganese 0.5 max. Silicon 0.5 max. Sulfur 0-0.5 Chromium 2-13.0 Molybdenum 0-1.5 Nitrogen 0.05 max. ______________________________________and the balance is essentially iron. The alloy, and articles made therefrom, provide higher saturation induction than known corrosion resistant, magnetic alloys.