Austenite formation and decomposition: proceedings of symposia : held at the Materials, Science & Technology 2003 Meeting in Chicago, Illinois, USA, November 9-12, 2003, Volume 1
E. Buddy Damm, Matthew J. Merwin, Iron and Steel Society of AIME. Product Physical Metallurgy Committee, Minerals, Metals and Materials Society. Materials Processing and Manufacturing Division. Phase Transformations Committee
TMS, 2003 - Technology & Engineering - 600 pages
These proceedings compile papers from an international symposium sponsored by the ISS Product Physical Metallurgy and TMS Phase Transformations committees. These papers bring together academic and industrial experts in austenite formation and decomposition to present the field's latest developments and cover such areas as advances in the understanding of the mechanistic, diffusional, and thermodynamic aspects of austenite formation and decomposition, as well as the ability to measure, characterize, and model these phenomena. Topics include effects of processing on austenite formation or decomposition, computational modeling, analytical methods for measurement of austenite formation and decomposition, and characterization of microstructures. Metallurgists in the field of ferrous metallurgy in both academia and industry, as well as metallurgists working in the area of phase transformations fundamentals, will find this book to be a valuable reference.
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The Bay Phenomenon in Steels with Reasonably Strong Carbide Formers
The Influence of Alloy Element Partitiomng on the Shapes of TIT Start
Effects of High Magnetic Field on Phase Transformation Behavior
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Acta allotriomorphic alloying elements atoms austenite decomposition austenite formation austenite grain boundaries bainite transformation bainitic ferrite boron calculated carbide carbon content carbon steels cementite chemical potential coarsening coefficient composition concentration cooling rate curves deformation diffraction diffusional dilatometric dilatometry driving force effect equation equilibrium eutectoid experimental Fe-C ferrite formation ferrite grain ferrite growth ferrite transformation free energy Gibbs energy grain boundaries grain growth H.I. Aaronson hardenability heat treatment Hillert HSLA steels increase initial intercritical annealing isothermal isothermal transformation laths lattice parameter LENP martensite martensitic transformation Materials Science measured Metall microalloyed microstructure morphology nucleation nucleation sites observed orientation paraequilibrium particles partitioning pearlite peritectic phase diagram Phase Transformations precipitation predicted Proeutectoid Ferrite quenching reaction retained austenite room temperature samples shown in Figure simulation solute drag specimens strain structure thermal thermodynamic Trans transformation kinetics TRIP steels undercooling values volume fraction weld x-ray diffraction Zwaag