Effect of prior austenite on reversed austenite stability and mechanical properties of low carbon medium manganese steel heavy plate |
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| Authors: | S Yu LX Du CX Yao RDK Misra B Zhang |
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| Affiliation: | 1. Northeastern University, The State Key Laboratory of Rolling and Automation, Wenhua Road 3–11, Heping District, 110819 SHENYANG, LIAONING, PEOPLE'S REPUBLIC OF CHINA;2. University of Texas at El Paso, Department of Metallurgical, Materials and Biomedical Engineering, Laboratory for Excellence in Advanced Steel Research, 500W University Ave, EL PASO, TX 79968-0521 UNITED STATES OF AMERICA |
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| Abstract: | The effect of prior austenite on reversed austenite stability and mechanical properties of Fe‐0.06C‐0.2Si‐5.5Mn‐0.4Cr (wt.%) annealed steels was elucidated. With the decrease of austenitizing temperature from 1250 °C to 980 °C, the prior austenite changed from complete recrystallization to partial recrystallization, and the average austenite size was reduced. The volume fraction of reversed austenite was increased from 26.32 % to 30.25 % because of high density of grain boundaries and dislocations. The martensite transformation temperature of annealed steels was increased from ~115 °C to ~150 °C, and both of thermal and mechanical stability of reversed were reduced. There was no significant different in tensile properties, however, the impact toughness was enhanced from 100 J to 180 J at ?60 °C. The excellent impact toughness in annealed steel (austenitized at 980 °C) was obtained because of higher density of high misorientation grain boundaries, more volume fraction of reversed austenite and reduced segregation at grain boundaries. |
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| Keywords: | Medium manganese steel prior austenite reversed austenite mechanical properties microstructure Stahl mit mittlerem Mangangehalt Primä raustenit Sekundä raustenit mechanische Eigenschaften / Gefü ge |
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