11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation...
Transcript of 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation...
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OXIDATION OF ALLOYS
http://home.agh.edu.pl/~grzesik
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1. P. Kofstad, „High-Temperature Oxidation of Metals”, John Wiley & Sons, Inc,
New York-London-Sydney, 1978.
2. S. Mrowec, Kinetyka i mechanizm utleniania metali, 1980.
3. S. Mrowec, „An Introduction to the Theory of Metal Oxidation”, National Bureau
of Standards and the National Science Foundation, Washington, D.C., 1982.
4. A.S. Khanna, „Introduction to High Temperature Oxidation and Corrosion”,
ASM International, Materials Park, 2002.
Literature
5. Wei Gao and Zhengwei Li ”Developments in high-temperature corrosion and
protection of metals”, Ed, Woodhead Publishing Limited, Cambridge, England,
2008.
6. N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation
of metals, Cambridge, University Press, 2009.
7. R. Cottis, M. Graham, R. Lindsay, S. Lyon, J. Richardson, J. Scantlebury, F. Stott,
„Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s Corrosion”,
Elsevier, Amsterdam, 2010.
8. D. J. Young, „High temperature oxidation and corrosion of metals”, Elsevier,
Sydney 2016.
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Problems
1. Oxidation of alloys containing noble metals
2. Internal oxidation
3. Oxidation of two-component alloys
4. Oxidation of multi-component alloys
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Thicknesses of scales formed on selected metals during their oxidation for 100 h
at 800 oC in oxygen
a – measured on Al-50%Ni
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
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Oxidation process of the Ni-Pt alloys
• nickel with platinum create a substitutional solid solution in the entire concentration range (>800 K)
• during nickel oxidation only one oxide (NiO) is formed with low defect concentration
Basic assumptions of Wagner’s oxidation theoryof two-component alloys containing a noble metal:of two-component alloys containing a noble metal:• mutual diffusion coefficients in the alloy are not dependent on
component concentrations• throughout the entire oxidation process
there is a thermodynamic equilibrium state at the alloy-scale interface
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Wagner derived an analytical equation that enables the calculation ofnickel concentration in the alloy, above which the rate limiting step ofthe oxidation reaction is outward nickel diffusion in NiO. In theseconditions, the alloy oxidation rate practically does not depend on thealloy composition and is the same as the nickel oxidation rate.In the case of nickel concentration lower than the critical value, theoxidation process is determined by nickel diffusion in the alloy, andthe oxidation rate is lower than that of pure nickel and decreases
Model characteristics of the Ni-Pt alloy oxidation process
the oxidation rate is lower than that of pure nickel and decreasesalong with nickel concentration.
2/1
D~2
kVValloy
Nip
NiO
mN
= π
alloyNiN – nickel concentration in the alloy, Vm – molar volume of the alloy,
kp – parabolic oxidation rate constant,
D~
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2016
– diffusion coefficient of nickel in the alloy
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Ni-Pt alloy Ni O1-y O2N
i con
tent
Ni
Schematic illustration of diffusion processes present during oxidation of Ni-Pt alloys
Case I:The oxidation process is determined by nickel diffusion in NiO.
Distance
Ni
Pt Ni , e+2 -
Ni-Pt alloy Ni O1-y O2
Ni c
onte
nt
Distance
Ni
Pt Ni , e+2 -
Case II:The oxidation process is determined by mutual diffusion of the alloying components inside the Ni-Pt alloy.
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Comparison between calculated oxidation rates ofNi-Pt alloys with experimental data
-1
0
log
α
T = 1373 K
Wagner's analytical solution
-2
log
cNi / at %
Wagner's analytical solutionExperimental data (Kubaschewski and Goldbeck)
0 10.5
Ni critical concentration
α - ratio between the parabolic oxidation rate constant of the alloy and pure nickel
O. Kubaschewski and von Goldbeck, J. Inst. Metals 76 (1949) 255
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Oxidation kinetics of Ni-Pt alloys
0 10 200
100
200
300
400
500
(∆m
/S)2
/
mg2 c
m-4
pO2 = 104 Pa
Ni-10Pt
1273 K
1323 K
1373 K
1423 K
1473 K
0 10 200
100
200
300
1273 K
1323 K
1373 K
1423 K
(∆m
/S)2
/
mg2 c
m-4
pO2 = 104 Pa
Ni-25Pt 1473 K
0 10 20
time / h
0 10 20
time / h
0 10 200
10
20
30
40
50
1273 K
1323 K
1373 K
1423 K
(∆m
/S)2
/ m
g2 cm
-4
time / h
pO2 = 104 Pa
Ni-60Pt
1473 K
0 10 200
1
2
3
4
5
1273 K
1323 K
1373 K
1423 K
(∆m
/S)2
/ m
g2 cm
-4
time / h
pO2 = 104 Pa
Ni-80Pt 1473 K
0 10 200
1
1273 K
1323 K
1373 K
1423 K
(∆m
/S)2
/
mg2 c
m-4
time / h
pO2 = 104 Pa
Ni-90Pt 1473 K
Conclusion: Ni-Pt alloys oxidize according to the parabolic rate law
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
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0 10 200
50
100
150
pO2 = 25 Pa
pO2 = 102 Pa
pO2 = 103 Pa
pO2 = 104 Pa
(∆m
/S)2
/ m
g2 cm
-4T = 1373 K
Ni-10Pt pO2 = 105 Pa
0 10 200
50
100
pO2 = 25 Pa
pO2 = 102 Pa
pO2 = 103 Pa
pO2 = 104 Pa
(∆m
/S)2
/ m
g2 cm
-4
T = 1373 KNi-25Pt pO2
= 105 Pa
Oxidation kinetics of Ni-Pt alloys
Conclusion: the oxidation process of Ni-Pt alloys exhibits a complex pressure dependence
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
0 10 20
time / h
0 10 200
5
10
15
20
pO2 = 25 Pa
pO2 = 102 Pa
pO2 = 103 Pa
pO2 = 104 Pa
(∆m
/S)2
/ m
g2 cm
-4
time / h
T = 1373 KNi-60Pt pO2
= 105 Pa
0 10 20
time / h
0 10 200
1
105 Pa
104 Pa
103 Pa
102 Pa 25 Pa
(∆m
/S)2
/
mg2 c
m-4
time / h
T = 1373 KNi-80Pt
0 10 200.0
0.1
0.2
0.3
0.4
0.5
105 Pa
104 Pa
103 Pa
102 Pa 25 Pa
(∆m
/S)2
10
/ m
g2 cm
-4
time / h
T = 1373 KNi-90Pt
.
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Temperature dependence of Ni-Pt alloy oxidation rates
10-12
10-11
10-10
10-9
10-8
1473 1373 1273
NiEa = 232 kJ/mol
Ni-90Pt
Ni-80Pt
Ni-60Pt
Ni-25Pt Ea = 228 kJ/molk p
/ g
2 cm
-4s-1
5
Ni-10Pt
T / K
10-12
10-11
10-10
10-9
10-8
1473 1373 1273
NiEa = 232 kJ/molNi-90Pt
Ni-80Pt
Ni-60Pt
Ni-25Pt
Ea = 228 kJ/mol
k p
/ g2 c
m-4
s-1
3
Ni-10Pt
T / K
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
7 8
10
T-1 104 / K-1
Ea = 275 kJ/molpO2 = 105 Pa
.7 8
10
T-1 104 / K-1
Ea = 275 kJ/molpO2 = 103 Pa
.
7 8
10-12
10-11
10-10
10-9
10-8
1473 1373 1273
NiEa = 232 kJ/mol
Ni-90Pt
Ni-80PtNi-60Pt
Ni-25Pt
Ea = 228 kJ/mol
k p
/ g2 c
m-4
s-1
T-1 104 / K-1
Ea = 275 kJ/molpO2 = 25 Pa
.
Ni-10Pt
T / K
Ea (Ni) = 232 kJ/mol
Ea (Pt-Ni) = 228 kJ/mol
Ea (Pt-Ni) = 275 kJ/molEa (Dinter, Pt-Ni) = 280 kJ/mol
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10-10
10-9
10-8
Ni-10Pt
Ni-25Pt
Ni-60Pt
Ni-80Pt
k p
/ g2 c
m-4
s-1
T = 1473 K
Ni
kp ~ pO2
1/6
10-10
10-9Ni-10Pt
Ni-25Pt
Ni-60Pt
Ni-80Ptk p
/ g2 c
m-4
s-1
T = 1373 K
Ni
kp ~ pO2
1/6
Pressure dependence of Ni-Pt alloy oxidation rates
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
101 102 103 104 10510-11
k
pO2 / Pa
Ni-90Pt
101 102 103 104 105
10-11
Ni-80Ptk
pO2 / Pa
Ni-90Pt
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Cross-section of the oxide scale on Ni-Pt alloys with an indicated marker location (1273 K)
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
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-1
0
1
log
α
T = 1373 K
Comparison between calculated oxidation rates of Ni-Pt alloys and experimental data
0 1
-3
-2
log
NNi / at. %
Wagner's analytical solutionExperimental data (Kubaschewski and Goldbeck)This work
0.5
Ni critical concentration
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
NOTE: White indicators pertain to thermogravimetric results, which encompasses the internal oxidation zone.
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-1
0
1
log
α
T = 1373 K
Comparison between calculated oxidation rates of Ni-Pt alloys and experimental data
0 1
-3
-2
log
NNi / at. %
Wagner's analytical solutionExperimental data (Kubaschewski and Goldbeck)This work
0.5
Ni critical concentration
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
NOTE: White indicators pertain to scale thickness measurements, and thus do not encompass the internal oxidation zone.
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Cross-section of the oxide scale on Ni-Pt alloys obtained at 1373 K
M. Danielewski, Z. Grzesik, S. Mrowec, Corrosion Science, 53, 2785-2792 (2011)
The lack of an internal oxidaiton zone for Ni-Pt alloys with low nickelcontent is due to the low nickel concentration gradient both in the scaleand in the alloy.
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Schematic illustration of the morphology of a heterophase scale grown on Ni-Pt alloysin the case of an unstable alloy-scale interface
O2
NiONi Ni
Ni-Pt alloy
NiNiNi Ni Ni Ni Ni
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Necessary condition for predicting oxide scale morphology on two-component alloys with a
noble metal
fn
n
DV
DV
Nio
Nio
alloy
Ni
NiO
=−
⋅1
f – parameter decribing the homogeneity of the scale,– molar fraction of nickel on the alloy-scale interface,
D – coefficient of mutual diffusion in the alloy,DNi – self-diffusion coefficient of cations in NiO,Valloy and VNiO – molar volumes of nickel in the alloy and NiO, respectively.
f > 1 means the formation of a single phase scale with a flat alloy-scale interface. f < 1 means the formation of a dual phase scale with an unstable alloy-scale interface.
nNio
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Types of scales formed on alloys
initial stage stacionary stage
alloy rich in A alloy rich in B
S. Mrowec, „An Introduction to the Theory of Metal Oxidation”, Washington, D.C., 1982
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Concentration distribution of components of AB alloy during selective oxidation of component B
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008.
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Internal oxidation
Internal oxidation – process of oxidation product formation in thealloy as a result of inward oxygen diffusion and its reaction with acertain component/components of the alloy.The internal oxidation zone can be in direct contact with the reactionatmosphere (no scale) or isolated from the gas environment by ascale.scale.Due to the neglibile solubility of most oxidants (e.g. sulfur andchlorine) in a metallic phase, the internal oxidation process mostlyproceeds due to reactions with oxygen.
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Necessary conditions for internal oxidation to take place in single phase two-component
alloys, according to Rapp
1. ∆G of alloying element oxide formation should be lower than thatfor a base metal, where the metal is on the lowest oxidationstate.
2. ∆G of the reaction between oxygen dissolved in the metallicphase and the alloying element B located inside the phase musthave a negative value.have a negative value.
3. Concentration of the alloying element dissolved in the basemetal should be lower than the limit concentration necessary forformation of a continuous layer of the alloying element oxide onthe alloy surface.
4. The surface layer of an alloy, which due to thermal or chemicaltreatment has different properties than the interior of thematerial, should be inhibit oxygen dissolution.
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Thickness of the internal oxidation zone and the rate of its formation
2/1
oB
OOp
Nm
tDN2tkx
=⋅=
2/1
oB
OO
Nm2
DNtdxd
=
x – thickness of the internal oxidation zoneDO – oxygen diffusion coefficient in the base metal At – reaction timeNO – oxygen concentration in the subsurface layer of the alloy
– initial concentration of metal B in the alloym – ratio of oxygen to metal atoms in the internal oxide, BOm
oBN
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Concentration distribution of alloying element B inside a non-oxidized alloy and in the internal
oxidation zone, when there is no scale
a) oxygen diffusion in the alloy is much faster than metal B diffusion in the alloyb) oxygen diffusion and metal B diffusion rates in the alloy are comparable
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008.
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Picture of the morphology of oxidizedFe-0,235%Si alloy in conditions that make FeO
formation impossible
S. Mrowec, „An Introduction to the Theory of Metal Oxidation”, Washington, D.C., 1982
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Scheme of diffusion processes in the scale and alloy AB, based on metal B and the cross-section of an oxided Fe-3%Ni alloy sample
S. Mrowec, „An Introduction to the Theory of Metal Oxidation”, Washington, D.C., 1982
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Oxidation of two-component alloysbased on nickel, iron and cobalt
Two-component alloys containng nickel, iron and cobalt constitute thebasis for several multiphase commercial alloys that cover themselvesduring oxidation with stable oxides exhibiting good and excellentprotective properties. From the point of view of high scaling-resistanceof these materials, the main alloying elements are: chromium,aluminum and silicon, responsible for forming: Cr2O3, Al2O3 and SiO2.Alloys, on the surface of which these oxides grow, are called: chromiaAlloys, on the surface of which these oxides grow, are called: chromiaformers, alumina formers and silica formers, respectively.The content of each alloying element, required for forming andensuring a stable growth of a protective oxide layer, is:Cr2O3 – 20 % wt. CrAl2O3 – 5 % wt., with simultaneous 20 % wt. Cr contentSiO2 – from 1 % wt.
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Ni-Cr alloy oxidation
Schematic dependence of the oxidation rate of Ni-Cr alloys on chromium content
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals,
Cambridge, University Press, 2009.
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Schematic procedure of the oxidation kinetics of Ni-Cr alloys with different chromium contents
Ni-Cr alloy oxidation
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals,
Cambridge, University Press, 2009.
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Influence of alloying elements on nickel oxidation kinetics
S. Mrowec and T. Werber, Modern Scaling-Resistant Materials, National Bureau of Standards and National Science Foundation, Washington D.C., 1982.
![Page 31: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/31.jpg)
Influence of chromium on the oxidation kinetics of Ni-Cr alloys at several different temperatures
Ni-Cr alloy oxidation
S. Mrowec and T. Werber, Modern Scaling-Resistant Materials, National Bureau of Standards and National Science Foundation, Washington D.C., 1982.
![Page 32: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/32.jpg)
Schematic illustration of the morphology of the oxide scale formed on diluted Ni-Cr alloys
Ni-Cr alloy oxidation
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals,
Cambridge, University Press, 2009.
![Page 33: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/33.jpg)
Schematic illustration of the morphology of the oxide scale formed on Ni-Cr alloys
Ni-Cr alloy oxidation
S. Mrowec and T. Werber, Modern Scaling-Resistant Materials, National Bureau of Standards and National Science Foundation, Washington D.C., 1982.
![Page 34: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/34.jpg)
Influence of Ca and Ce on the lifetime of Ni-20Cr alloy at 1050 oC
S. Mrowec, Kinetyka i mechanizm utleniania metali, 1980
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Scheme of Cr2O3 scale formation on high-percent Ni-Cr alloys
S. Mrowec, Kinetyka i mechanizm utleniania metali, 1980
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Fe-Cr alloy oxidation
Phase diagram of the Fe-Cr-O system
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals,
Cambridge, University Press, 2009.
![Page 37: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/37.jpg)
Schematic illustration of the morphology of the oxide scale that grows on Fe-Cr alloys
N. Birks, G.H. Meier and F.S Pettit,
Introduction to the high temperature
oxidation of metals, Cambridge,
University Press, 2009.
![Page 38: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/38.jpg)
Chromium influence on iron oxidation kinetics
S. Mrowec, T. Werber, Modern scalling-resistant materials, National Bureau of Standards, 1982
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Influence of manganese on the oxidation of chromia-former materials
∆G(MnO) < ∆G(Cr2O3) alloy/MnO/Cr2O3
Expectations:
Reality: alloy/Cr2O3/MnCr2O4
Reasons:• presence of stable MnCr2O4• as a rule low Mn
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
• as a rule low Mn concentration in the alloy
• aolubility limt of Mn in Cr2O3: 1.6%
• DMn(Cr2O3) >> DMn(stop)
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Co-Cr alloy oxidation
Influence of chromium on oxidation kinetics of Co-Cr alloys at several different temperatures
S. Mrowec, T. Werber, Modern scalling-resistant materials, National Bureau of Standards, 1982
![Page 41: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/41.jpg)
Comparison between oxidation rates of two-component alloys: chromium with cobalt, iron and nickel
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Oxidation of alumina-formers
In two-component alloys from the alumina-forminggroup, aluminum concentration ensuring the formationof an Al2O3 protective layer (> 20 %) is so high that itresults in the alloy being brittle. Therefore, onlyalumina-formers that are multi-component alloys withaluminum concentration on the level of 5% havepractical use, or an intermetallic compound (e.g. fromthe Ni-Al system) can be applied as a coating material.
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Dependence of oxide scale phase composition and morphology on the composition of Ni-Cr-Al alloys
I – NiO (external)Cr2O3/Al2O3/Ni(Al,Cr)2O4 (internal)
II – Cr2O3 (external)Al2O3 (internal)
III – Al2O3 (external)
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
III – Al2O3 (external)
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Dependence of oxide scale phase composition and morphology on the composition of Ni-Al alloys
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
![Page 45: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/45.jpg)
Temperature dependence of the oxidation rate of NiAl with specified oxides constituting the scale
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
![Page 46: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/46.jpg)
Transformation temperature of Al2O3 placed on a γ-Al2O3 +3% Pt catalizer (a) and γ-Al2O3 (b)
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
![Page 47: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/47.jpg)
Oxidation kinetics of β-NiAl+Zr involving γ-Al2O3to α-Al2O3 transformations
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
![Page 48: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/48.jpg)
SEM picture of an oxide scale grown on β-NiAl at 1100 oC, demonstrating an α-Al2O3 layer
on the substrate-scale interface
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
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Chromium influence on Al2O3 scale on a Ni-15Cr-6Al (mass % ) alloy at 1000oC
1 min
5 minS – Ni(Cr,Al)2O4
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
5 min
40 min
> 40 min
– Cr2O3
– Al2O3
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Distribtution of an α-Al2O3 protective layer
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
2l – sample thickness
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Influence of nickel on chromium steel oxidation rate
S. Mrowec, T. Werber, Modern scalling-resistant materials, National Bureau of Standards, 1982
![Page 52: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/52.jpg)
Results of cyclic oxidation of Fe-Cr-Al alloys with different sulfur contents (sulfur effect)
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
![Page 53: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/53.jpg)
Influence of platinum on oxidation of alloys with different sulfur contents (platinum effect)
David J. Young, „High temperature oxidation and corrosion of metals”, Elsevier, Sydney 2008
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Influence of Y on Fe-25Cr-5Al alloy oxidation rate
S. Mrowec, Kinetyka i mechanizm utleniania metali, 1980
![Page 55: 11 Oxidation of alloys - AGH University of Science and ...home.agh.edu.pl/~grzesik/FHTC/11_Oxidation of alloys.pdf · „Basic Concepts, High Temperature Corrosion, tom I” w „Shreir’s](https://reader034.fdocuments.us/reader034/viewer/2022042101/5e7d5cae8a8c2347a942ad43/html5/thumbnails/55.jpg)
Influence of Y and Sc on the degradation rate of Fe-25Cr-5Al and Ni-20Cr alloys in cyclic
oxidation conditions
S. Mrowec, Kinetyka i mechanizm utleniania metali, 1980
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Scheme of mechanical binding of the scale to the substrate by the internally oxidized rare earth metals,
assembled at the alloy grain boundaries (keying effect)
S. Mrowec, Kinetyka i mechanizm utleniania metali, 1980
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10-11
10-10
10-9
-4s-1
1573 1373 1173 973
Ni-30CrCo-35Cr
UTLENIANIE
T / K
Oxidation rates of selected alloys
6 7 8 9 10 1110-15
10-14
10-13
10-12
.T-1 104 / K-1
k p /
g2 c
m-4
chromia formersalumina formers
β-NiAl
Fe-5Cr-4Al Ni-10Cr-5Al
Fe-20Cr
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Silica-former materials oxidation
The presence of silicon in alloys even at relatively lowconcentrations makes the materials brittle. Thus, there are nomulticomponent alloys with silicon used as constructionmaterials. This type of alloy, similar to intermetallic compoundsor silicon-containing ceramics (e.g. MoSi2, SiC, SiN), canhowever be used as coatings.
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
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Oxidation of model Fe-Si alloys
Schematic diagram of the cross-section of the scale formed on diluted Fe-Si alloys
N. Birks, G.H. Meier and F.S Pettit, Introduction to the high temperature oxidation of metals, Cambridge,
University Press, 2009.
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THE ENDTHE END