Results 91 to 100 of about 581 (134)
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Abstract This article presents fractographs of ferritic stainless steels that failed by overload and embrittlement.
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Recrystallization of ferrite–austenite stainless steel
Metal Science, 1984AbstractProcesses taking place in the course of annealing of deformed ferrite–austenite stainless steel have been examined by means of light and electron metallography. Deformations of 23, 43, and 85% were obtained by rolling at room temperature. It has been found that ferrite and austenite recrystallize discontinuously irrespective of the magnitude of
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Constitutive modeling of ferritic stainless steel
International Journal of Material Forming, 2009In this work, constitutive models, including phenomenological and crystal plasticity, were used to simulate the anisotropy behavior and texture evolution of two ferritic stainless steel sheets, AISI409L and AISI430. Uniaxial tension, hydraulic bulge and disk compression tests were performed to characterize the mechanical properties of the two materials,
Xu, L, Barlat, F, Ahn, DC
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Review of stabilisation of ferritic stainless steels
Materials Science and Technology, 1996A review is presented of the stabilisation of type 430 ferritic stainless steels, and the benefits and shortcomings of stabilizing elemental additions on the corrosion and mechanical properties dis...
W. Gordon, A. van Bennekom
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Selection of Wrought Ferritic Stainless Steels
1993Abstract This article describes the classification of ferritic stainless steels. It reviews the metallurgical characteristics of various ferritic grades as well as the factors that influence their weldability. The article provides a discussion on various arc welding processes.
K.F. Krysiak +3 more
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Heat Treating of Ferritic Stainless Steels
2014Abstract Ferritic stainless steels are essentially chromium containing steel alloys with at least 10.5% Cr. They can be grouped based on their chromium content: low chromium (10.5 to 12.0%), medium chromium (16 to 19%), and high chromium (greater than 25%). This article provides general information on the metallurgy of ferritic stainless
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Stress Corrosion of Ferritic Stainless Steels
CORROSION 1975, 1975Ferritic, iron-chromium stainless steels with chromium in the range of 14% to 27% are generally considered resistant to chloride stress-corrosion cracking and are sometimes used for this reason in place of the austenitic 18Cr-8Ni, steels, which readily fail by this form of corrosion.
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Embrittlement of ferrite-austenite and ferrite stainless steels
Metal Science and Heat Treatment, 1965A. P. Gulyaev +2 more
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Precipitation and fracture in a ferritic stainless steel
2014A dual stabilised ferritic stainless steel with titanium and niobium additions had been experiencing failures during production. Following hot rolling and cooling while coiled and prior to annealing, the steel had been prone to shattering across its width during uncoiling. This project was initiated by the manufacturers, Columbus Stainless, so that the
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