Materials Algorithms Project
Data Library
Data Library MAP_DATA_CREEP_RUPTURE
- Provenance of code.
- Purpose of code.
- Description of subroutine's operation.
- References.
- Any additional information.
- Keywords.
- Download source code.
- Links.
Provenance of Source Code
F. Brun* and Dr. T. Yoshida**,
Phase Transformations Group,
Department of Materials Science and Metallurgy,
University of Cambridge,
Cambridge, U.K.
*FB is now with Ecole Polytechnique, Palaiseau, France.
**Dr Yoshida is with Ishikawajima Harima Heavy Industries, Japan.
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Purpose
Provides 2066 creep rupture test results of steels (mainly of two kinds of
steels: 2.25Cr and 9-12 wt% Cr ferritic steels).
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Description
The file creeprupt.tar contains :-
- creeprupt.txt - a text version of this document.
- taka - an ASCII text file containing the data.
The file taka contains 31 columns as follows :-
Column 1 Lifetime / hours
Column 2 Rupture stress / MPa
Column 3 Temperature / Kelvin
Columns 4-21 Composition / wt%
- 4. Carbon
- 5. Silicon
- 6. Manganese
- 7. Phosphorus
- 8. Sulphur
- 9. Chromium
- 10. Molybdenum
- 11. Tungsten
- 12. Nickel
- 13. Copper
- 14. Vanadium
- 15. Niobium
- 16. Nitrogen
- 17. Aluminium
- 18. Boron
- 19. Cobalt
- 20. Tantalum
- 21. Oxygen
Column 22 Normalising temperature / Kelvin
Column 23 Normalising time / hours
Column 24 Cooling rate of normalisation :-
- 0 - furnace cooling.
- 1 - air cooling.
- 2 - oil quench.
- 3 - water quench.
Column 25 Tempering temperature / Kelvin
Column 26 Tempering time / hours
Column 27 Cooling rate of tempering / (0-3 as for normalisation)
Column 28 Annealing temperature / Kelvin
Column 29 Annealing time / hours
Column 30 Cooling rate of annealing / (0-3 as for normalisation)
Column 31 Rhenium / wt%
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References
- National Research Institute for Metals, NRIM Creep data
sheets 36A (1991), 3B (1986), 13B (1994), 10A (1979), 19A (1981).
- F. Masuyama and M. Ohgami, Proc. JIMIS-7, Nagoya,
Japan 1993 325-332.
- F. Abe and S. Nakazawa, Metallurgical Transactions A 23A
1992 3025-3034.
- V. Sklenicka, K. Kucharova, A Dloughy and J Krejci,
Materials for advanced power engineering, Part I, Kluwer
Academic Publishers, Netherlands 1994 435--444.
- F. Masuyama and T. Yokoyama, Materials for advanced power
engineering, Part I, Kluwer Academic Publishers, Netherlands
1994 301-308.
- L. Kunz, P. Lukas and V. Sklenicka,
Materials for advanced power engineering,
Part I, Kluwer Academic Publishers, Netherlands
1994 445-452.
- T. Fujita, Future ferrite steels for high-temperature service,
New Steels for Advanced Plant up to 620 C,
ed. E. Metcalfe, EPRI, California 1995 190-200.
- B. S. Greenwell and J. W. Taylor, Institute of Mechanical
Engineering Conference C386/041 1990 283-296.
- J. Hald, Future ferrite steels for high-temperature service,
New Steels for Advanced Plant up to 620 C,
ed. E. Metcalfe, EPRI, California 1995 152-173.
- G. A. Honeyman, Future ferrite steels for high-temperature service,
New Steels for Advanced Plant up to 620 C,
ed. E. Metcalfe, EPRI, California 1995 70-83.
- F. Brühl, K. Haarmann, G. Kalwa, H. Weber and M. Zschau,
VGB Kraftwerkstechnik 69 1989 1064-1080.
- P. J. Grobner and W. C. Hagel,
Metallurgical Transactions A, 11A 1980 633-642.
- H Naoi, H. Mimura, M. Ohgami, H. Morimoto, T. Tanaka, Y. Yazaki and T. Fujita}{ Future ferrite steels for high-temperature service
New Steels for Advanced Plant up to 620 C,
ed. E. Metcalfe, EPRI, California 1995 8-29.
- M. Morinaga, R. Hashizume and Y. Murata,
Materials for advanced power engineering, Part I,
Kluwer Academic Publishers, Netherlands 1994 319-328.
- V. K. Sikka, M. G. Cowgill and B. W. Roberts,
Proc. of Topical Conference on ferritic alloys for use in nuclear
technologies, TMS-AIME, Warrendale, Pennsylvania 1984 413-423.
- M. L. Shaw, T. B. Cox and W. C. Leslie,
J. Materials for Energy Systems 8 1987 347-355.
- Y. Tsuchida, R. Yamaba, K. Tokuno, K. Hashimoto, T. Ogawa and T. Takeda,
Internal Report, Nippon Steel Corporation, Japan 1990
- C. Coussement, M. de Witte, A. Dhooge, R. Dobbelaere and E. Van der Donckt
Reveue de La Soudure 1 1990 58-63.
- H. Masumoto, H. Naoi, T. Takahashi, S. Araki, T. Ogawa and T. Fujita
EPRI 2nd Conference, Palo Alto, California 1988 40.3-40.10.
- V. K. Sikka and R. H. Baldwin,
Internal Report, Data package for modified 9Cr1Mo alloy, update,
Oak Ridge National Laboratories, Tennessee, U.S.A. 1987.
- A. Iseda, M. Kubota, Y. Hayase, S. Yamamoto and K. Yoshikawa,
The Sumitomo Search 36 1988 17-29.
- J. Orr and D. Burton, Materials for advanced power engineering,
Part I, Kluwer Academic Publishers, Netherlands 1994 263-280.
- Anonymous,
Internal report, Nippon Kokan K.K., Japan 1987
- T. Fujita, K. Asakura, T. Sawada, T. Takamatsu and Y. Otoguro,
Metallurgical Transactions A 12A 1981 1071-1079.
- T. Fujita and N. Takahashi,
Trans. ISIJ 18 1979 269-278.
- A. Hizume, Y. Takeda, H. Yokota, Y. Takano, A. Suzuki, S. Kinoshita,
M. Kohno and T. Tsuchiyama,
Advanced Materials Technology '87,
eds R . Carson, F. J. Riel, M. Burg and K. J. Kjoller,
SAMPE Publishers, California 1987 143-151.
- K. Kuwabara, A. Nitta, T. Ogata and S. Sugai,
Advanced Materials Technology '87,
eds R . Carson, F. J. Riel, M. Burg and K. J. Kjoller,
SAMPE Publishers, California 1987 153-162.
- K. Haarmann and G. P. Kalwa,
Advanced Materials Technology '87,
eds R . Carson, F. J. Riel, M. Burg and K. J. Kjoller,
SAMPE Publishers, California 1987 267-273.
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Further Comments
The database was supplied by the Dr Takahashi Yoshida and used to train a
neural network which enabled us to model the creep properties of steels.
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materials, data, creep, rupture, steel
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Download data
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