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Stainless steels
2
• Must contain 10.5% Cr and low
content of carbon
• Discoverd in 1900 – 1915 as effort
of investigations of many people; Leon
Guillet (F), Giesen (GB), Harry
Brearley(GB), Hans Goldsmidt (D),
Albert Portevin (F), Borchers (D) and
Max Mauermann (PL)
Harry Brearly
Albert Portevin
H. Goldsmidt
M. Mauermann
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3
Mössbauer Spectroscopy in Fe-Cr Alloys
Two aspects
Industrio-
technologicalScientific
2007
For GMR
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Mössbauer Spectroscopy in Fe-Cr Alloys
• Aspect industrio-technological •
0
5
10
15
20
25
30
35
40
45
mm
t
Global production of SS 1998-2013
7% pa
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Mössbauer Spectroscopy in Fe-Cr Alloys
• Industrio-technological aspect •
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Mössbauer Spectroscopy in Fe-Cr Alloys
• Scientific aspect •
Crystallographic Magnetic
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• Crystallographic •
MS in Fe-Cr Alloys
Different phases: , ’, ,
Phase transitions: ,
Phase decomposition: , ’FM
Phys. Rev. B. 84 (2011)184205
’
PMTN
AF
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• Magnetic •
Ferromagnetism
Antiferromagnetism
Spin-glass
Re-entrence
Mössbauer Spectroscopy in Fe-Cr Alloys
Xiong et al., Crit. Rev. Sol. State. Mater. Sci., 35 (2010) 125
AFSpin-Glass
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Mössbauer Spectroscopy is one
of the most relevant techniques
to study Fe-Cr Alloys Spin- and charge-density changes
Identification of , and phases
Kinetics of phase formation e. g.
Short-range ordering (SRO)
Phase decomposition (, ’)
Curie temperature
Néel temperaure
Spin-glass freezing temperature
Re-entrance transition
Corrosion
Texture
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MS and Hyperfine Interactions
H = E0 +E2 +M13/2
1/2
E0
3/2
1/2
E2
3/2
1/2
M1
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11
×
Spin- and charge-density
• •• •
••
• • •
× ×
×
× ×
×
×
×
•
bcc: 1NN=8, 2NN=6
×
×
x = 5 at% Cr
(1,1)
nmnm
r xxnm
xnmP
14)1(
68);,(
(0,0)
(0,2)
(2,0)
×××
× ×
×
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Spin & charge
TH 2.31 TH 2.22
21):0,0():,( HnHmxHxnmH
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Spin- & charge-denisty changes
• Local charge-density changes on Fe sites:
1NN: ΔI1 = -0.023 mm/s = 0.012 s-electron/Cr atom
2NN: ΔI2 = -0.007 mm/s = 0.007 s-electron/Cr atom
• Average changes:
qmax 0.04 e
ΔI = Iσ – Iα = -0.11 mm/s 0.06 e
46.2 at% 5.12
1
2
1
I
I
H
H
Electrons with spin-up
flow from Cr to Fe
46.2 at%
α
B2
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SRO in Fe-Cr
x
npFeCrn 1
pFeCr(n) – probability of finding one Cr
atom in the n-th shell around a Fe atom• Cowley SRO parameter, n:
14
)1,0(6)0,1(812
– I. Mirebeau, G. Parette Phys. Rev. B, 82 (2010) 104203)
ND
INVERSION
(1)
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SRO in Fe-Cr - MSx
m
811
O - cold rolled
- quenched - Q
- EQ
- IA
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SRO in Fe-Cr - MS
• ND
• MS (EQ)
• MS (Q)
• MS (CR)
Theory 1 Theory 2I. Mirebeau, PRB (2010)
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Phase decomposition into ad ’
’
475 oC embrittlement
440oC
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Miscibility gap boundary
Levesque et al., PRB, 84 (2011) 184205
Xiong et al., CALPHAD (2011)
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19
Phase decomposition into ad ’
Fe20Cr80
Fe85Cr15
Magnetic
Paramagnetic
• Borders of miscibility gap
RT
66
(at%Cr)
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Borders of miscibility gapS. M. Dubiel & G. Inden, Z. Metallkde, 78 (1987) 544
x=85.8 %
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Borders of miscibility gap• Annealed samples: (a)15, (b) 20.8, (d) 70.6 at%Cr
’
S. M. Dubiel & G. Inden,
Z. Metallkde, 78 (1987) 544
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Borders of miscibility gap
Kubaschewski, Springer, Berlin (1982) Andersson & Sundman, Calphad, 11 (1987)
x (%) x(<N>) x(<H>) x’
15.0 12.9 12.0 -
20.8 14.3 14.0 -
70.6 15.7 16.5 88.0
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Borders of miscibility gap
T (oC) Sample xCr (%)
415 NR 11.2(3)
415 IR 13.9(3)
450 NR 13.3(3)
450 oC
415 oC
Fe85Cr15
S.M. Dubiel, J. Zukrowski, Mater. Chem. Phys., 141 (2013) 18
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Borders of miscibility gap
Xiong et al., CALPHAD (2011)
He+-irradiated
Non-irradiated
S.M.Dubiel, J.Zukrowski, Mater.
Chem. Phys., 141 (2013) 18
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Borders of miscibility gapM. Levesque et al., PRB, 84 (2011) 184205
Dubiel & Inden (1987); Dubiel & Zukrowski (2013)
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Phase decomposition into and ’
/
/
http://pruffle.mit.edu/3.00/Lecture_32_web/node3.html
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Phase decomposition into ad ’• Kinetics of decomposition
Fe85Cr15@450oC )ln(1
2
12
21
k
kk
TT
TTE B
Tk
Ekk
B
o exp
Arrhenius law
122 kJ/moln, k
Dubiel & Zukrowski, Mater. Chem. Phys. 141 (2013) 18
T (oC) Sample xCr (%) n k [s-1]
415 NR 11.2(3) 0.6(1) 0.3
415 IR 13.9(3) 1.0(3) 3.9
450 NR 13.3(3) 0.4(5) 2.2
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Phase decomposition into ad ’• Short-range ordering: Fe85Cr15@415oC
(0,0)
(0,0)
(0,0)
Each spectrum was analyzed in terms of
17 subspectra (sextets) corresponding to
particular atomic configurations (m,n)
Analysis yielded probabilities of (m,n),
P(m,n), based on which the average number
of Cr atoms in 1NN, <m>, that in 2NN, <n>,
and the one in 1NN-2NN, <m+n>, was
determined.
SRO parameters, 1, 2, 12, were next
calculated from the following equations:
x
m
811
x
n
612
x
nm
14112
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Phase decomposition into ad ’• Short-range ordering: Fe85Cr15 @ 415oC
S. M. Dubiel, J. Zukrowski, Acta Mater., 61(2013)6207
Inversion
1NN
2NN
1NN-2NN
Solid lines represent best fits in terms
of JMAK-like equation, hence 12 is
linearly correlated with <B>.
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Sigma () phase - identification
XRD • T = 295 K MS
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phase - kinetics
100SS
SA
Ta = 700oC
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Sigma () phase - kinetics
700oC
]exp[1100 nktA
)exp(RT
Ekk o
E = 196 ± 2 kJ/mol
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phase – Curie Temperature
(a) 4.2 K; (b) 295 K
(a) x = 45.0, (b) x = 46.2 and (c) x = 48.0
G
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– Curie Temperature
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35
Summary
Mössbauer Spectroscopy is a very useful techniques to quantitatively
investiagte various issues pertinent to Fe-Cr alloys, and in particular:
• Magnetic ordering temperatures
• Short-rane ordering
• Borders of misceptibility gap
• Sigma-phase identification and its kinetics
Stanislaw M. Dubiel, AGH University of Sci. & Technol., Krakow, Poland
• Kinetics of phase separation
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Acknowledgements
36
Thanks
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37
Thank you for listening!
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Mössbauer Effect
Radiation E [keV] Intensity Range* [nm]
14.4 0.11 ~20 000
X-K 6.3 0.28 ~20 000
X-L 0.7 0.002
CE-K 7.3 0.79 ~10-400
CE-L 13.6 0.08 ~20-1 300
* In metallic Fe Range for He (25 keV) ~225 nm