Oxidation kinetics of recently developed ferritic heat-resistant steels, HCM12A, NF616, and HCM2S, were investigated in a superheated steam to evaluate the effects of chemical composition of the steels, testing temperature (560–700°C), steam pressure (1–10 MPa), and degrees of microstructural evolution by aging on oxidation. The contribution of alloyed Cr to oxidation resistance was pronounced above 600°C, while no material dependency was found at 600°C or lower. The apparent activation energy of the oxidation rate clearly changed at around 600°C for NF616 and HCM12A. In contrast, HCM2S showed single activation energy over the range of temperatures. Although temperature and chemical composition were the major factors, steam pressure also showed a clear negative effect on the oxidation rate in the lower temperature range, 570–600°C.

Issue Section:
Technical Papers
Keywords:
boilers, oxidation, steel, pressure vessels, temperature distribution
Topics:
Heat, Oxidation, Pressure, Steam, Steel, Temperature, Boilers, Superheating
1.
Naoi, H., Mimura, H., Ohgami, M., Morimoto, H., Takana, T., Yazaki, Y., and Fujita, T., 1995, “NF616 Pipe Production and Properties and Welding Consumable Development,” New Steels for Advanced Plant up to 620°C, E. Metcalfe, ed., The Society of Chemical Industry, London, UK, pp. 8–29.
2.
Masuyama, F., and Yokoyama, T., 1995, “NF616 Fabrication Trials–in Comparison with HCM12A,” New Steels for Advanced Plant up to 620°C, E. Metcalfe, ed., The Society of Chemical Industry, London, UK, pp. 30–44.
3.
Sawaragi, Y., Iseda, A., Ogawa, K., Masuyama, F., and Yokoyama, T., 1995, “HCM12A Pipe Production, Properties and Welding Consumable Development,” New Steels for Advanced Plant up to 620°C, E. Metcalfe, ed., The Society of Chemical Industry, London, UK, pp. 45–55.
4.
Solberg
,
H. L.
,
Hawkins
,
G. A.
, and
Potter
,
A. A.
,
1942
, “
Corrosion of Unstressed Steel Specimens and Various Alloys by High-Temperature Steam
,”
Trans. ASME
,
64
, pp.
303
316
.
5.
Hawkins
,
G. A.
,
Solberg
,
H. L.
,
Agnew
,
J. T.
, and
Potter
,
A. A.
,
1943
, “
Corrosion of Unstressed Specimens of Alloy Steel by Steam at Temperatures up to 1800F
,”
Trans. ASME
,
65
, pp.
301
308
.
6.
Hawkins
,
G. A.
,
Agnew
,
J. T.
, and
Solberg
,
H. L.
,
1944
, “
The Corrosion of Alloy Steals by High-Temperature Steam
,”
Trans. ASME
,
66
, pp.
291
295
.
7.
Rohrig
,
I. A.
,
Van Duzer
,
R. M.
, and
Fellows
,
C. H.
,
1944
, “
High-Temperature-Steam Corrosion Studies at Detroit
,”
Trans. ASME
,
66
, pp.
277
290
.
8.
Ruther
,
W. E.
, and
Greenberg
,
S.
,
1964
, “
Corrosion of Steels and Nickel Alloys in Superheated Steam
,”
J. Electrochem. Soc.
,
111
, pp.
1116
1121
.
9.
Potter
,
A. A.
,
Solberg
,
H. L.
, and
Hawkins
,
G. A.
,
1937
, “
Investigation of the Oxidation of Metals by High-Temperature Steam
,”
Trans. ASME
,
59
, pp.
725
732
.
10.
Eberle, F., and Kitterman, J. H., 1968, “Scale Formations on Superheater Alloys Exposed to High Temperature Steam,” Behavior of Superheater Alloys in High Temperature High Pressure Steam, G. E. Lien, ed., ASME, pp. 67–113.
11.
Fujii
,
C. T.
, and
Meussner
,
R. A.
,
1964
, “
The mechanism of the High-Temperature Oxidation of Iron-Chromium Alloys in Water Vapor
,”
J. Electrochem. Soc.
,
111
, pp.
1215
1221
.
12.
Surman
,
P. L.
, and
Castel
,
J. E.
,
1969
, “
Gas Phase Transport in The Oxidation of Fe and Steel
,”
Corros. Sci.
,
9
, pp.
771
777
.
13.
Mayer, P., and Manolescu, A. V., 1981, “The Role of Structural and Compositional Factors in Corrosion of Ferritic Steals in Steam,” High Temperature Corrosion (International Corrosion Conference Series NACE-6), NACE, pp. 368–379.
14.
Fukuda, Y., Tamura, K., and Suzaki, K., 1997, “Effect of Cr and Si Contents on The Steam Oxidation of High Cr Ferritic Steels,” Proc. Internal Symposium on Plant Aging and Life Prediction of Corrodible Structure, Sapporo, Japan, JSCE and NACE, pp. 835–840.
15.
Matsuno
,
F.
,
Nishikida
,
S.
, and
Harada
,
T.
,
1981
, “
Oxidation of Fe-Ni Alloys at High Temperatures
), ” (in Japanese
Tetsu-to-Hagane
,
67
, pp.
2029
2038
.
16.
Kusabiraki
,
K.
,
Toki
,
H.
,
Asami
,
K.
,
Ishiguro
,
T.
, and
Ooka
,
T.
,
1988
, “
High Temperature Oxidation of Fe-Cr Alloys in Ar-10 Percent H2O Atmosphere
” (in Japanese),
Tetsu-to-Hagane
,
74
, pp.
863
878
.
17.
Effertz, P. H., 1972, “Morphology and Composition of Magnetite Layers in Boiler Tubes Following Long Exposure,” Proc., 5th International Congress on Metallic Corrosion, NACE, Tokyo, pp. 920–924.
Copyright © 2001
 by ASME
You do not currently have access to this content.