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![Page 1: New Methods in Steel Design - METEC-ESTAD · PDF fileNew Methods in Steel Design Wolfgang Bleck Collaborative Research Center SFB 761 „Steel – ab initio; quantum mechanics guided](https://reader031.vdocuments.us/reader031/viewer/2022021817/5a9de8567f8b9a0d5a8dc192/html5/thumbnails/1.jpg)
New Methods in Steel Design Wolfgang Bleck
Collaborative Research Center SFB 761
„Steel – ab initio; quantum mechanics guided design of new Fe based materials”
![Page 2: New Methods in Steel Design - METEC-ESTAD · PDF fileNew Methods in Steel Design Wolfgang Bleck Collaborative Research Center SFB 761 „Steel – ab initio; quantum mechanics guided](https://reader031.vdocuments.us/reader031/viewer/2022021817/5a9de8567f8b9a0d5a8dc192/html5/thumbnails/2.jpg)
Wolfgang Bleck 2
Outline
• Introduction
• New modeling tools
• New characterization tools
• New processes
• Conclusions
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Wolfgang Bleck 3
Decisions and Methods in Material Development
high
low
Risk Stage of development
HSLA AHSS HMnS
Industrial application 2010 1990 1970
Modeling 2000 1990 1980
Material; Time
HSLA: High Strength Low Alloy AHSS: Advanced High Strength Steels HMnS: High Manganese Steels
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Wolfgang Bleck 4
Comparison Strength – Formability of different steel concepts
Strength
Form
abili
ty
High-Mn-Steels
(austenitic steels)
ferritic
steels
ferritic multiphase steels
Medium-Mn-Stähle
(austenitic
multiphase steels)
AHSS = Advanced High-Strength Steels
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Wolfgang Bleck 5
Deformation Mechanisms in High Manganese Steels
g
k k
k
k
k
k k
T k T T
T
T T
T
T T
T T T T T T
T
T T
T
T T T Transformation
during
deformation
Twinning
during
deformation
Dislocation
generation and
reactions
Dislocation
channels by
intermetallics
SLIP TRIP TWIP MBIP
SLIP: Dislocation slip TRIP: transfomation induced plasticity TWIP: twinning induced plasticity MBIP: Microband induced plasticity
T T
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Wolfgang Bleck 6
Outline
• Introduction
• New modeling tools
• New characterization tools
• New processes
• Conclusions
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Wolfgang Bleck 7
Deformation mechanisms I – Method development
SFE-Concept 2007
Carbon content
Ma
ng
an
ese c
on
ten
t
TRIP: transfomation induced plasticity TWIP: twinning induced plasticity
a‘ –Martensite e – Martensite SFE: Stackingfaultenergy A. Saeed-Akbari, L. Mosecker, A. Schwedt, W. Bleck:
Metall. Mater. Trans. A, 43A (2012) 1688-1704
2D-Mechanism map 2011
Carbon content
Ma
ng
an
ese c
on
ten
t
+1.5 wt.-%
Aluminum
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Wolfgang Bleck 8
Deformation mechanisms II – Method development
SFE-Concept 2007
3D-Mechanism map 2014
TRIP: transfomation induced plasticity TWIP: twinning induced plasticity MBIP: MicroBand Induced Plasticity
W. Song, T. Ingendahl, W. Bleck:
Acta Metall. Sin. (Engl. Lett.), 27 (2014) 3 546-556
A. Saeed-Akbari, L. Mosecker, A. Schwedt, W. Bleck:
Metall. Mater. Trans. A, 43A (2012) 1688-1704
2D-Mechanism map 2011
Carbon content
Ma
ng
an
ese c
on
ten
t
+1.5 wt.-%
Aluminum
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Wolfgang Bleck 9
Fe-Cr-Mn-N
Patent: EP 14162191.2. “Austenitic stainless steels“ Europäische Patentanmeldung
Publication: L. Mosecker and A. Saeed-Akbari, Sci. Technol. Adv. Mater. 14 (2013) 1-14
Adoption of the SFB method to:
Steel and process development in only 3 years.
New material and process meet benchmark properties.
Materials and process design for stainless TWIP steel
Method
Development Materials
Application Materials
Processing
industrial process
different alloy system
Transfer project stainless TWIP steels I
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Wolfgang Bleck 10
Fe-Cr-Mn-N Request: YS > 500 MPa, A > 40%
Patent: EP 14162191.2. “Austenitic stainless steels“ Europäische Patentanmeldung
Publication: L. Mosecker and A. Saeed-Akbari, Sci. Technol. Adv. Mater. 14 (2013) 1-14
Method
Development Materials
Application Materials
Processing
Transfer project stainless TWIP steels II
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Wolfgang Bleck 11
Enthalpy of solutions
of C in Fe-Mn-Octahedron
Properties I
Steel denomination DIN EN 10027-1 and -2: TWIP: X60Mn18 TWIP Al: X60MnAl17-1 stainless steel: X5CrNi18-10
Fe Mn
Flow curves
X5CrNi18-10
X60MnAl17-1
X60Mn18 TWIP
TWIP Al
stainless steel
True plastic strain / -
Tru
e s
tre
ss / M
Pa
Experiment ab initio simulation
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Wolfgang Bleck 12
Modelling approach yield strength:
Properties II – new interpretation of results
Solid solution hardening
sy (MPa) = 228 + 187(wt%C) - 2(wt%Mn) O. Bouaziz, H. Zurob, B. Chehab, J. D. Embury, S. Allain, M. Huang:
Materials Science and Technology 27 (2011) 707-709.
Flow curves
Short range order + microstructure
sSRO =M tSRO = M (Erandom – ESRO) / b3
sy (MPa) = 90 + sSRO + 11,3 d-1/2
J.-H. Kang: T. Ingendahl, J. von Appen, R. Dronskowski, W. Bleck:
Materials Science and Engineering A (2014) 122-128
Steel denomination DIN EN 10027-1 and -2: TWIP: X60Mn18 TWIP Al: X60MnAl17-1 stainless steel: X5CrNi18-10
X5CrNi18-10
X60MnAl17-1
X60Mn18 TWIP
TWIP Al
stainless steel
True plastic strain / -
Tru
e s
tre
ss / M
Pa
Experiment Constitutive model
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Wolfgang Bleck 13
Outline
• Introduction
• New modeling tools
• New characterization tools
• New processes
• Conclusions
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Wolfgang Bleck 14
Characterisation – quantitative analysis on nm-scale
STEM / TEM
Target preparation
APT
3D-Element distribution Grain boundaries Orientation
FIB: Focussed Ion Beam STEM: Scanning Transmission Electron Microscope APT: Atom Probe Tomography Herbig et al: Physical Review Letters 112 (12) 2014
FIB
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Wolfgang Bleck 15
Fe-30Mn-8Al-1.2C wt.
K-Phase no K-Phase
Microstructure – local equilibrium
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Wolfgang Bleck 16
nm - Precipitates of k-Phase
DESY
Synchrotron Diffraction
(001)κ
APT
Atom Probe Tomography
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Wolfgang Bleck 17
Outline
• Introduction
• New modeling tools
• New characterization tools
• New processes
• Conclusions
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Wolfgang Bleck 18
Material Design
Process chain for the
production of Fe-Mn-Al-C
Fe-Mn-Al-C-Crashboxen
with different heat treatment
SFE: Stackingfaultenergy
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Wolfgang Bleck 19
Materials and Process Design I
Mechanismenorientiertes Werkstoff- und Prozessdesign
Christian Haase
O. Bouaziz, C.P. Scott, G. Petitgand: Scripta Mater., 60 (2009) 714-716.
H.T. Wang, N.R. Tao, K. Lu: Acta Mater., 60 (2012) 4027-4040.
C. Haase et al.: Met. Mater. Trans. A, 44 (2013) 4445-4449.
Deformation Twins
before cold rolling after cold rolling after recovery annealing
Substitution of recrystallization annealing by recovery annealing
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Wolfgang Bleck 20
Materials and Process Design II
50 % + 550 °C/30 min 40 % + 550 °C/1 h
1 µm 1 µm
RX
Twin boundaries are heat resistant C. Haase et al.: Acta Mater., 80 (2014) 327-340.
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Wolfgang Bleck 21
Materials and Process Design III
Variation of rolling degree and annealing parameters
allows the adjustment of final mechanical properties
CR: cold rolled RC: recovered RX: recrystallized
C. Haase et al.: Acta Mater., 80 (2014) 327-340.
C. Haase et al.: Adv. Mater. Res., 922 (2014) 213-218.
0 10 20 30 40 50 60 700
200
400
600
800
1000
1200
1400
Te
ch
nis
ch
e S
pa
nn
un
g (
MP
a)
Technische Dehnung (%)
0 10 20 30 40 50 60 700
200
400
600
800
1000
1200
1400
Technis
che
Spann
ung
(M
Pa)
Technische Dehnung (%)
0 10 20 30 40 50 60 700
200
400
600
800
1000
1200
1400
Te
ch
nis
ch
e S
pa
nn
un
g (
MP
a)
Technische Dehnung (%)technical strain (%)
tech
nic
al str
ess (
MP
a)
Y
ield
str
ength
0.2
% (
MP
a)
fracture strain (%)
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Wolfgang Bleck 22
Outline
• Introduction
• New modeling tools
• New characterization tools
• New processes
• Conclusions
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Wolfgang Bleck 23
Nano-Engineered Steels
g
k k
k
k
k
k k
T k T T
T
T
T T
T
T T T T
T T T T T T T T T T
T
T T
T
T
T T T T T
Transformation
during
deformation
Twinning
during
deformation
Transformation
+
precipitation
Dislocation
channels by
intermetallics
Bainite TRIP TWIP MBIP
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Wolfgang Bleck 24
Microstructure length scales of different steels
1 m
conventional steel
TMP
UFG
NS
Thermo Mechanically Processed
Ultra Fine Grain
Nanostructured steels
10-3 m
10-6 m
10-9
nm
Quelle: Müller Weingarten AG
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Wolfgang Bleck 25
Vision I: Quantitative Understanding of Parameters
bcc
fcc
hcp
Crystall structure
FM
PM
Magnetism
SLIP
TRIP
TWIP
MBIP
T T
k k
k
k
k
k k
T k T T T
T T
T
T
T T T T T T
T
T T
T
T
Deformation mechanisms
Multiphases
α‘ retained γ
g a’
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Wolfgang Bleck 26
str
ess s
[M
Pa]
0 20 40 60 80 100 strain e [%]
TRIP
Steel
TWIP Steel
Vision II: Individual adjustment of mechanical properties for
stress exposed optimized components
source: Future Steel Vehicle, World Auto Steel Report
New quality level in
material development
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New Methods in Steel Design Wolfgang Bleck
Collaborative Research Center SFB 761
„Steel – ab initio; quantum mechanics guided design of new Fe based materials”