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Author Pereloma, Elena
Title Phase Transformations in Steels : Diffusionless Transformations, High Strength Steels, Modelling and Advanced Analytical Techniques
Imprint Cambridge : Elsevier Science & Technology, 2012
©2012
book jacket
Descript 1 online resource (673 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Series Woodhead Publishing Series in Metals and Surface Engineering Ser. ; v.2
Woodhead Publishing Series in Metals and Surface Engineering Ser
Note Cover -- Phase transformations in steels: Volume 2: Diffusionless transformations, high strength steels, modelling and advanced analytical techniques -- Copyright -- Contents -- Contributor contact details -- Foreword -- Introduction -- Part I Diffusionless transformations -- 1 Crystallography of martensite transformations in steels -- 1.1 Introduction -- 1.2 Martensite transformations in steels -- 1.3 Phenomenological theory of martensite crystallography (PTMC) -- 1.4 The post phenomenological theory of martensite crystallography (PTMC) period -- 1.5 Strain energy - the Eshelby/Christian model and the infinitesimal deformation (ID) approach -- 1.6 Interfacial dislocation models -- 1.7 Future trends -- 1.8 Conclusions -- 1.9 References -- 2 Morphology and substructure of martensite in steels -- 2.1 Morphology and crystallographic features of martensite in ferrous alloys -- 2.2 Morphology and substructure of lath martensite -- 2.3 Morphology and substructure of lenticular martensite -- 2.4 Morphology and substructure of thin plate martensite -- 2.5 Conclusions -- 2.6 References -- 3 Kinetics of martensite transformations in steels -- 3.1 Introduction -- 3.2 Mechanism and kinetics of martensitic transformation -- 3.3 Mechanically induced transformations -- 3.4 Transformation plasticity constitutive relations and applications -- 3.5 Conclusions -- 3.6 References -- 4 Shape memory in ferrous alloys -- 4.1 Introduction -- 4.2 Fe-Pt alloys -- 4.3 Fe-Ni and Fe-Ni-C alloys -- 4.4 Fe-Ni-Co-based alloys -- 4.5 Austenitic stainless steels with low stacking fault energy (SFE) -- 4.6 Fe-Mn-based alloys -- 4.7 Summary -- 4.8 Acknowledgements -- 4.9 References -- 5 Tempering of martensite in carbon steels -- 5.1 Introduction -- 5.2 Martensitic microstructures prior to tempering heat treatments
5.3 Classification of aging and tempering stages: general considerations -- 5.4 Changes in martensitic fine structure due to aging -- 5.5 The stages of tempering -- 5.6 Conclusions -- 5.7 References -- Part II Phase transformations in high strength steels -- 6 Phase transformations in microalloyed high strength low alloy (HSLA) steels -- 6.1 Introduction to microalloyed high strength low alloy (HSLA) steels -- 6.2 Brief historical review of the development of microalloyed steels -- 6.3 Solubility of microalloying elements in austenite and ferrite -- 6.4 Precipitation -- 6.5 Effects of microalloying on transformation kinetics -- 6.6 Phase transformations during high strength low alloy (HSLA) steels processing -- 6.7 Controlled processed ferrite/bainite and acicular ferrite steels -- 6.8 Conclusions and future trends -- 6.9 Acknowledgements -- 6.10 References -- 7 Phase transformations in transformation induced plasticity (TRIP)-assisted multiphase steels -- 7.1 Introduction -- 7.2 Historical perspectives on the emergence of transformation induced plasticity (TRIP)-assisted multiphase steels -- 7.3 Influence of parameters of the thermomechanical process on the formation of multiphase microstructures containing retained a -- 7.4 Conclusion and future trends -- 7.5 References -- 8 Phase transformations in quenched and partitioned steels -- 8.1 Introduction to the quenching and partitioning concept -- 8.2 Microstructure development fundamentals and alloy designs -- 8.3 Mechanical behavior, potential applications, and implementation status -- 8.4 Conclusions -- 8.5 References -- 9 Phase transformations in advanced bainitic steels -- 9.1 Introduction -- 9.2 Design of third generation of advanced high strength steels -- 9.3 Carbide-free bainitic steels: a material ready for the nanocentury -- 9.4 Conclusions and future trends -- 9.5 Acknowledgement
9.6 References -- 10 Phase transformations in high manganese twinning-induced plasticity (TWIP) steels -- 10.1 Introduction -- 10.2 Fe-Mn-X alloys -- 10.3 Strain-induced twinning -- 10.4 Twinning-induced plasticity (TWIP) industrialization -- 10.5 Conclusions -- 10.6 Acknowledgements -- 10.7 References -- 11 Phase transformations in maraging steels -- 11.1 State of the art of ultra high strength steels -- 11.2 Types of maraging steels -- 11.3 Microstructure and precipitates in maraging steels -- 11.4 Reverted austenite and mechanical properties -- 11.5 Evolution of precipitates and the overall process -- 11.6 Precipitation kinetic theory in Fe-12Ni-6Mn maraging type alloy -- 11.7 Research trends -- 11.8 References -- Part III Modelling phase transformations -- 12 First principles in modelling phase transformations in steels -- 12.1 Introduction -- 12.2 Ab initio description of phase stability of pure iron -- 12.3 Ab initio phase stability of iron carbides -- 12.4 Substitutional alloying elements -- 12.5 Ab initio description of diffusivity in bcc Fe -- 12.6 Future trends -- 12.7 References -- 13 Phase field modelling of phase transformations in steels -- 13.1 Introduction -- 13.2 Phase field methodology -- 13.3 Austenite formation -- 13.4 Austenite decomposition -- 13.5 Future trends -- 13.6 References -- 14 Molecular dynamics modeling of martensitic transformations in steels -- 14.1 Introduction -- 14.2 Interatomic interaction potentials -- 14.3 Martensitic transformations in iron: case studies -- 14.4 Transformations in ferrous nanosystems -- 14.5 Conclusions and future trends -- 14.6 Acknowledgement -- 14.7 References -- 15 Neural networks modeling of phase transformations in steels -- 15.1 Introduction -- 15.2 Essence of the method -- 15.3 On the quest of critical temperatures -- 15.4 Determining microstructural parameters
15.5 Development of continuous cooling transformation (CCT) diagrams -- 15.6 Conclusions and future trends -- 15.7 References -- Part IV Advanced analytical techniques for studying phase transformations in steels -- 16 Application of modern transmission electron microscopy (TEM) techniques to the study of phase transformations in steels -- 16.1 Introduction -- 16.2 Transmission electron microscopy (TEM) sample preparation -- 16.3 Conventional transmission electron microscopy (CTEM) of steels -- 16.4 Modern transmission electron microscopy (TEM) of steels -- 16.5 In-situ transmission electron microscopy (TEM) -- 16.6 Future trends: emerging transmission electron microscopy (TEM) techniques -- 16.7 Sources of further information and advice -- 16.8 Conclusions -- 16.9 References -- 17 Atom probe tomography for studying phase transformations in steels -- 17.1 Introduction -- 17.2 Outline of the technique -- 17.3 Specimen requirements -- 17.4 Recent developments -- 17.5 Interpretation of data -- 17.6 Characterizing and understanding phase transformations in various steels -- 17.7 Future trends -- 17.8 Conclusion -- 17.9 Acknowledgments -- 17.10 References -- 18 Electron backscatter diffraction (EBSD) techniques for studying phase transformations in steels -- 18.1 Introduction -- 18.2 Fundamentals of the electron backscatter diffraction (EBSD) technique -- 18.3 The current standard of 2D electron backscatter diffraction (EBSD) applications -- 18.4 3D electron backscatter diffraction (3D-EBSD) -- 18.5 Conclusions and future development of the technique -- 18.6 References -- 19 Application of synchrotron and neutron scattering techniques for tracking phase transformations in steels -- 19.1 Introduction -- 19.2 X-ray and neutron scattering techniques -- 19.3 Measurements of phase transformation in steels -- 19.4 Conclusions and future trends
19.5 Acknowledgements -- 19.6 References -- Index
The processing-microstructure-property relationships in steels continue to present challenges to researchers because of the complexity of phase transformation reactions and the wide spectrum of microstructures and properties achievable. This major two-volume work summarises the current state of research on phase transformations in steels and its implications for the emergence of new steels with enhanced engineering properties. Volume 2 reviews current research on diffusionless transformations and phase transformations in high strength steels, as well as advances in modelling and analytical techniques which underpin this research. Chapters in part one discuss the crystallography and kinetics of martensite transformations, the morphology, substructure and tempering of martensite as well as shape memory in ferrous alloys. Part two summarises research on phase transformations in high strength low alloy (HSLA) steels, transformation induced plasticity (TRIP)-assisted multiphase steels, quenched and partitioned steels, advanced nanostructured bainitic steels, high manganese twinning induced plasticity (TWIP) and maraging steels. The final two parts of the book review advances in modelling and the use of advanced analytical techniques to improve our understanding of phase transformations in steels. With its distinguished editors and distinguished international team of contributors, the two volumes of Phase transformations in steels is a standard reference for all those researching the properties of steel and developing new steels in such areas as automotive engineering, oil and gas and energy production. Alongside its companion volume, this major two-volume work summarises the current state of research on phase transformations in steels Reviews research on diffusionless transformations and phase transformations in high strength steels Examines advances
in modelling and the use of advanced analytical techniques to improve understanding of phase transformations in steels
Description based on publisher supplied metadata and other sources
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2020. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
Link Print version: Pereloma, Elena Phase Transformations in Steels : Diffusionless Transformations, High Strength Steels, Modelling and Advanced Analytical Techniques Cambridge : Elsevier Science & Technology,c2012 9781845699710
Subject Steel -- Metallurgy.;Physical metallurgy.;Phase diagrams
Electronic books
Alt Author Edmonds, David V
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