Bainite and Martensite: Developments and Challenges

The microstructures of both martensite and bainite, although sharing some common features, depict a plethora of subtle differences that made them unique when studied in further detail. Tailoring the final properties of a microstructure based on one or the other as well as in combination with others...

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Manylion Llyfryddiaeth
Prif Awdur: Garcia-Mateo, Carlos
Fformat: Online
Iaith:Saesneg
Cyhoeddwyd: MDPI - Multidisciplinary Digital Publishing Institute 2021
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Mynediad Ar-lein:46131
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author Garcia-Mateo, Carlos
author_browse Garcia-Mateo, Carlos
author_facet Garcia-Mateo, Carlos
author_sort Garcia-Mateo, Carlos
collection Directory of Open Access Books
description The microstructures of both martensite and bainite, although sharing some common features, depict a plethora of subtle differences that made them unique when studied in further detail. Tailoring the final properties of a microstructure based on one or the other as well as in combination with others and exploring more sophisticated concepts, such as Q&P and nanostructured bainite, are the topics which are the focus of research around the world. In understanding the key microstructural parameters controlling the final properties as well as definition of adequate process parameters to attain the desired microstructures requires that a proper understanding of the mechanism ruling their transformation and a detailed characterization first be acheived. The development of new and powerful scientific techniques and equipment (EBSD, APT, HRTEM, etc.) allow us to gain fundamental insights that help to establish some of the principles by which those microstructures are known. The developments accompanying such findings lead to further developments and intensive research providing the required metallurgical support.
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language eng
publishDate 2021
publishDateRange 2021
publishDateSort 2021
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-417862024-04-11T15:10:41Z Bainite and Martensite: Developments and Challenges Garcia-Mateo, Carlos TA1-2040 T1-995 TA401-492 n/a TRIP tempering modeling microstructure nanobainite lenticular martensite stainless steel carbonitrides precipitation carbide precipitation bainitic ferrite EBSD hot rolling fatigue transmission Kikuchi diffraction transmission electron microscopy medium-Mn steel dilatometry industrialization molybdenum ausforming offshore steels welding Q&amp creep resistant steels inductive measurements metastable austenite retained austenite mechanical properties martensite carbon partitioning transformation induced plasticity (TRIP) thermomechanical treatment phase transformation transformation kinetics kinetics MX nanoprecipitates phase equilibrium steel electron backscattering diffraction titanium impact toughness surface modification bainitic/martensitic ferrite retained austenite stability dilatation behavior P tempered martensite embrittlement yield strength bainite high strength steel tensile ductility synchrotron niobium microalloyed steels ultrahigh strength steel low temperature bainite strain-induced martensite plate thickness ferritic/martensitic steel austenite decomposition nitrocarburising high carbon steels Kernel average misorientation austempering martensitic steel HEXRD direct quenched thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology The microstructures of both martensite and bainite, although sharing some common features, depict a plethora of subtle differences that made them unique when studied in further detail. Tailoring the final properties of a microstructure based on one or the other as well as in combination with others and exploring more sophisticated concepts, such as Q&P and nanostructured bainite, are the topics which are the focus of research around the world. In understanding the key microstructural parameters controlling the final properties as well as definition of adequate process parameters to attain the desired microstructures requires that a proper understanding of the mechanism ruling their transformation and a detailed characterization first be acheived. The development of new and powerful scientific techniques and equipment (EBSD, APT, HRTEM, etc.) allow us to gain fundamental insights that help to establish some of the principles by which those microstructures are known. The developments accompanying such findings lead to further developments and intensive research providing the required metallurgical support. 2021-02-11T08:50:32Z 2021-02-11T08:50:32Z 2020-06-09 16:38:57 2020 book 46131 9783039288588 9783039288571 https://directory.doabooks.org/handle/20.500.12854/41786 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/2325 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03928-858-8 10.3390/books978-3-03928-858-8 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039288588 9783039288571 166 open access
spellingShingle TA1-2040
T1-995
TA401-492
n/a
TRIP
tempering
modeling
microstructure
nanobainite
lenticular martensite
stainless steel
carbonitrides precipitation
carbide precipitation
bainitic ferrite
EBSD
hot rolling
fatigue
transmission Kikuchi diffraction
transmission electron microscopy
medium-Mn steel
dilatometry
industrialization
molybdenum
ausforming
offshore steels
welding
Q&amp
creep resistant steels
inductive measurements
metastable austenite
retained austenite
mechanical properties
martensite
carbon partitioning
transformation induced plasticity (TRIP)
thermomechanical treatment
phase transformation
transformation kinetics
kinetics
MX nanoprecipitates
phase equilibrium
steel
electron backscattering diffraction
titanium
impact toughness
surface modification
bainitic/martensitic ferrite
retained austenite stability
dilatation behavior
P
tempered martensite embrittlement
yield strength
bainite
high strength steel
tensile ductility
synchrotron
niobium
microalloyed steels
ultrahigh strength steel
low temperature bainite
strain-induced martensite
plate thickness
ferritic/martensitic steel
austenite decomposition
nitrocarburising
high carbon steels
Kernel average misorientation
austempering
martensitic steel
HEXRD
direct quenched
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Garcia-Mateo, Carlos
Bainite and Martensite: Developments and Challenges
title Bainite and Martensite: Developments and Challenges
title_full Bainite and Martensite: Developments and Challenges
title_fullStr Bainite and Martensite: Developments and Challenges
title_full_unstemmed Bainite and Martensite: Developments and Challenges
title_short Bainite and Martensite: Developments and Challenges
title_sort bainite and martensite developments and challenges
topic TA1-2040
T1-995
TA401-492
n/a
TRIP
tempering
modeling
microstructure
nanobainite
lenticular martensite
stainless steel
carbonitrides precipitation
carbide precipitation
bainitic ferrite
EBSD
hot rolling
fatigue
transmission Kikuchi diffraction
transmission electron microscopy
medium-Mn steel
dilatometry
industrialization
molybdenum
ausforming
offshore steels
welding
Q&amp
creep resistant steels
inductive measurements
metastable austenite
retained austenite
mechanical properties
martensite
carbon partitioning
transformation induced plasticity (TRIP)
thermomechanical treatment
phase transformation
transformation kinetics
kinetics
MX nanoprecipitates
phase equilibrium
steel
electron backscattering diffraction
titanium
impact toughness
surface modification
bainitic/martensitic ferrite
retained austenite stability
dilatation behavior
P
tempered martensite embrittlement
yield strength
bainite
high strength steel
tensile ductility
synchrotron
niobium
microalloyed steels
ultrahigh strength steel
low temperature bainite
strain-induced martensite
plate thickness
ferritic/martensitic steel
austenite decomposition
nitrocarburising
high carbon steels
Kernel average misorientation
austempering
martensitic steel
HEXRD
direct quenched
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet TA1-2040
T1-995
TA401-492
n/a
TRIP
tempering
modeling
microstructure
nanobainite
lenticular martensite
stainless steel
carbonitrides precipitation
carbide precipitation
bainitic ferrite
EBSD
hot rolling
fatigue
transmission Kikuchi diffraction
transmission electron microscopy
medium-Mn steel
dilatometry
industrialization
molybdenum
ausforming
offshore steels
welding
Q&amp
creep resistant steels
inductive measurements
metastable austenite
retained austenite
mechanical properties
martensite
carbon partitioning
transformation induced plasticity (TRIP)
thermomechanical treatment
phase transformation
transformation kinetics
kinetics
MX nanoprecipitates
phase equilibrium
steel
electron backscattering diffraction
titanium
impact toughness
surface modification
bainitic/martensitic ferrite
retained austenite stability
dilatation behavior
P
tempered martensite embrittlement
yield strength
bainite
high strength steel
tensile ductility
synchrotron
niobium
microalloyed steels
ultrahigh strength steel
low temperature bainite
strain-induced martensite
plate thickness
ferritic/martensitic steel
austenite decomposition
nitrocarburising
high carbon steels
Kernel average misorientation
austempering
martensitic steel
HEXRD
direct quenched
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url 46131
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