Microstructural Features of Quenching and Partitioning: A New Martensitic Steel Heat Treatment

Edmonds, D. V.; He, K.; Miller, Michael K; Rizzo, F. C.; Clarke, A.; Matlock, D. K.; Speer, J. G.

Title: Microstructural Features of Quenching and Partitioning: A New Martensitic Steel Heat Treatment

Conference · Mon Jan 01 00:00:00 EST 2007

OSTI ID:978145

Edmonds, D. V. ^[1]; He, K. ^[1]; Miller, Michael K ^[2]; Rizzo, F. C. ^[3]; Clarke, A. ^[4]; Matlock, D. K. ^[4]; Speer, J. G. ^[4]

University of Leeds, UK
ORNL
Pontificia Universidad Catolica-Rio de Janerio, Brazil
Colorado School of Mines, Golden

The microstructure following a new martensite heat treatment has been examined, principally by high-resolution microanalytical transmission electron microscopy and by atom probe tomography. The new process involves quenching to a temperature between the martensite-start (Ms) and martensite-finish (Mf) temperatures, followed by ageing either at or above, the initial quench temperature, whereupon carbon can partition from the supersaturated martensite phase to the untransformed austenite phase. Thus the treatment has been termed ''Quenching and Partitioning'' (Q&P). The carbon must be protected from competing reactions, primarily carbide precipitation, during the first quench and partitioning steps, thus enabling the untransformed austenite to be enriched in carbon and largely stabilised against further decomposition to martensite upon final quenching to room temperature. This microstructural objective is almost directly opposed to conventional quenching and tempering of martensite, which seeks to eliminate retained austenite and where carbon supersaturation is relieved by carbide precipitation. This study focuses upon a steel composition representative of a TRIP-assisted sheet steel. The Q&P microstructure is characterised, paying particular attention to the prospect for controlling or suppressing carbide precipitation by alloying, through examination of the carbide precipitation that occurs.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Shared Research Equipment Collaborative Research Center

Sponsoring Organization:: USDOE Office of Science (SC)

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 978145

Resource Relation:: Conference: THERMEC 2006, Vancouver, Canada, 20060704, 20060708

Country of Publication:: United States

Language:: English

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36 MATERIALS SCIENCE
ATOMS
AUSTENITE
CARBIDES
CARBON
HEAT TREATMENTS
MARTENSITE
MARTENSITIC STEELS
MICROSTRUCTURE
PRECIPITATION
PROBES
QUENCHING
STEELS
SUPERSATURATION
TEMPERING
TOMOGRAPHY
TRANSMISSION ELECTRON MICROSCOPY

Title: Microstructural Features of Quenching and Partitioning: A New Martensitic Steel Heat Treatment

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