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This book gathers a collection of papers summarizing some of the latest developments in the thermomechanical processing of steels. The replacement of conventional rolling plus post-rolling heat treatments by integrated controlled forming and cooling strategies implies important reductions in energy consumption, increases in productivity and more compact facilities in the steel industry. The metallurgical challenges that this integration implies, though, are relevant and impressive developments that have been achieved over the last 40 years. The frequency of the development of new steel grades and processing technologies devoted to thermomechanically processed products is increasing, and their implementation is being expended to higher value added products and applications. In addition to the metallurgical peculiarities and relationships between chemical composition, process and final properties, the relevance impact of advanced characterization techniques and innovative modelling strategies provides new tools to achieve the further deployment of the TMCP technologies. The contents of the book cover low carbon microalloyed grades, ferritic stainless steels and Fe–Al–Cr alloys, medium-Mn steels, and medium carbon grades. Authors of the chapters of this "Thermomechanical Processing of Steels" book represent some of the most relevant research groups from both the steel industry and academia.
Research & information: general --- low carbon steel --- prior austenite grain boundary --- carbon segregation --- Bs temperature --- ferritic stainless steel --- plastic deformation --- dynamic strain-induced transformation --- intercritical rolling --- microalloying --- microstructure --- EBSD --- high-aluminum steel --- second phase --- phase transition --- thermodynamic calculation --- ferritic heat resistant stainless steel --- hot tensile deformation --- tensile property --- dynamic recrystallization --- flow behavior --- high Ti steels --- Nb microalloying --- recrystallization kinetics --- strain-induced precipitation --- rheological law modeling --- rolling --- microstructural and mechanical coupling --- defect reduction --- advanced high-strength steels (AHSS) --- medium-Mn steel --- phase equilibrium --- niobium-titanium microalloyed steel --- electrical resistivity --- atom probe tomography --- scanning electron microscopy --- low-carbon steel --- microalloyed --- hot torsion testing --- prior austenite --- polygonal ferrite --- bainite --- vanadium microalloying --- austenite stability --- HEXRD --- EELS --- n/a
Choose an application
This book gathers a collection of papers summarizing some of the latest developments in the thermomechanical processing of steels. The replacement of conventional rolling plus post-rolling heat treatments by integrated controlled forming and cooling strategies implies important reductions in energy consumption, increases in productivity and more compact facilities in the steel industry. The metallurgical challenges that this integration implies, though, are relevant and impressive developments that have been achieved over the last 40 years. The frequency of the development of new steel grades and processing technologies devoted to thermomechanically processed products is increasing, and their implementation is being expended to higher value added products and applications. In addition to the metallurgical peculiarities and relationships between chemical composition, process and final properties, the relevance impact of advanced characterization techniques and innovative modelling strategies provides new tools to achieve the further deployment of the TMCP technologies. The contents of the book cover low carbon microalloyed grades, ferritic stainless steels and Fe–Al–Cr alloys, medium-Mn steels, and medium carbon grades. Authors of the chapters of this "Thermomechanical Processing of Steels" book represent some of the most relevant research groups from both the steel industry and academia.
low carbon steel --- prior austenite grain boundary --- carbon segregation --- Bs temperature --- ferritic stainless steel --- plastic deformation --- dynamic strain-induced transformation --- intercritical rolling --- microalloying --- microstructure --- EBSD --- high-aluminum steel --- second phase --- phase transition --- thermodynamic calculation --- ferritic heat resistant stainless steel --- hot tensile deformation --- tensile property --- dynamic recrystallization --- flow behavior --- high Ti steels --- Nb microalloying --- recrystallization kinetics --- strain-induced precipitation --- rheological law modeling --- rolling --- microstructural and mechanical coupling --- defect reduction --- advanced high-strength steels (AHSS) --- medium-Mn steel --- phase equilibrium --- niobium-titanium microalloyed steel --- electrical resistivity --- atom probe tomography --- scanning electron microscopy --- low-carbon steel --- microalloyed --- hot torsion testing --- prior austenite --- polygonal ferrite --- bainite --- vanadium microalloying --- austenite stability --- HEXRD --- EELS --- n/a
Choose an application
This book gathers a collection of papers summarizing some of the latest developments in the thermomechanical processing of steels. The replacement of conventional rolling plus post-rolling heat treatments by integrated controlled forming and cooling strategies implies important reductions in energy consumption, increases in productivity and more compact facilities in the steel industry. The metallurgical challenges that this integration implies, though, are relevant and impressive developments that have been achieved over the last 40 years. The frequency of the development of new steel grades and processing technologies devoted to thermomechanically processed products is increasing, and their implementation is being expended to higher value added products and applications. In addition to the metallurgical peculiarities and relationships between chemical composition, process and final properties, the relevance impact of advanced characterization techniques and innovative modelling strategies provides new tools to achieve the further deployment of the TMCP technologies. The contents of the book cover low carbon microalloyed grades, ferritic stainless steels and Fe–Al–Cr alloys, medium-Mn steels, and medium carbon grades. Authors of the chapters of this "Thermomechanical Processing of Steels" book represent some of the most relevant research groups from both the steel industry and academia.
Research & information: general --- low carbon steel --- prior austenite grain boundary --- carbon segregation --- Bs temperature --- ferritic stainless steel --- plastic deformation --- dynamic strain-induced transformation --- intercritical rolling --- microalloying --- microstructure --- EBSD --- high-aluminum steel --- second phase --- phase transition --- thermodynamic calculation --- ferritic heat resistant stainless steel --- hot tensile deformation --- tensile property --- dynamic recrystallization --- flow behavior --- high Ti steels --- Nb microalloying --- recrystallization kinetics --- strain-induced precipitation --- rheological law modeling --- rolling --- microstructural and mechanical coupling --- defect reduction --- advanced high-strength steels (AHSS) --- medium-Mn steel --- phase equilibrium --- niobium-titanium microalloyed steel --- electrical resistivity --- atom probe tomography --- scanning electron microscopy --- low-carbon steel --- microalloyed --- hot torsion testing --- prior austenite --- polygonal ferrite --- bainite --- vanadium microalloying --- austenite stability --- HEXRD --- EELS --- low carbon steel --- prior austenite grain boundary --- carbon segregation --- Bs temperature --- ferritic stainless steel --- plastic deformation --- dynamic strain-induced transformation --- intercritical rolling --- microalloying --- microstructure --- EBSD --- high-aluminum steel --- second phase --- phase transition --- thermodynamic calculation --- ferritic heat resistant stainless steel --- hot tensile deformation --- tensile property --- dynamic recrystallization --- flow behavior --- high Ti steels --- Nb microalloying --- recrystallization kinetics --- strain-induced precipitation --- rheological law modeling --- rolling --- microstructural and mechanical coupling --- defect reduction --- advanced high-strength steels (AHSS) --- medium-Mn steel --- phase equilibrium --- niobium-titanium microalloyed steel --- electrical resistivity --- atom probe tomography --- scanning electron microscopy --- low-carbon steel --- microalloyed --- hot torsion testing --- prior austenite --- polygonal ferrite --- bainite --- vanadium microalloying --- austenite stability --- HEXRD --- EELS
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