Materials Algorithms Project
Data Library

Data Library MAP_DATA_CREEP_RUPTURE

1. Provenance of code.
2. Purpose of code.
3. Description of subroutine's operation.
4. References.
5. Any additional information.
6. Keywords.
7. Download source code.
8. Links.

Provenance of Source Code

*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

1. National Research Institute for Metals, NRIM Creep data sheets 36A (1991), 3B (1986), 13B (1994), 10A (1979), 19A (1981).
2. F. Masuyama and M. Ohgami, Proc. JIMIS-7, Nagoya, Japan 1993 325-332.
3. F. Abe and S. Nakazawa, Metallurgical Transactions A 23A 1992 3025-3034.
4. V. Sklenicka, K. Kucharova, A Dloughy and J Krejci, Materials for advanced power engineering, Part I, Kluwer Academic Publishers, Netherlands 1994 435--444.
5. F. Masuyama and T. Yokoyama, Materials for advanced power engineering, Part I, Kluwer Academic Publishers, Netherlands 1994 301-308.
6. L. Kunz, P. Lukas and V. Sklenicka, Materials for advanced power engineering, Part I, Kluwer Academic Publishers, Netherlands 1994 445-452.
7. 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.
8. B. S. Greenwell and J. W. Taylor, Institute of Mechanical Engineering Conference C386/041 1990 283-296.
9. 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.
10. 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.
11. F. Brühl, K. Haarmann, G. Kalwa, H. Weber and M. Zschau, VGB Kraftwerkstechnik 69 1989 1064-1080.
12. P. J. Grobner and W. C. Hagel, Metallurgical Transactions A, 11A 1980 633-642.
13. 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.
14. M. Morinaga, R. Hashizume and Y. Murata, Materials for advanced power engineering, Part I, Kluwer Academic Publishers, Netherlands 1994 319-328.
15. 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.
16. M. L. Shaw, T. B. Cox and W. C. Leslie, J. Materials for Energy Systems 8 1987 347-355.
17. Y. Tsuchida, R. Yamaba, K. Tokuno, K. Hashimoto, T. Ogawa and T. Takeda, Internal Report, Nippon Steel Corporation, Japan 1990
18. C. Coussement, M. de Witte, A. Dhooge, R. Dobbelaere and E. Van der Donckt Reveue de La Soudure 1 1990 58-63.
19. H. Masumoto, H. Naoi, T. Takahashi, S. Araki, T. Ogawa and T. Fujita EPRI 2nd Conference, Palo Alto, California 1988 40.3-40.10.
20. 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.
21. A. Iseda, M. Kubota, Y. Hayase, S. Yamamoto and K. Yoshikawa, The Sumitomo Search 36 1988 17-29.
22. J. Orr and D. Burton, Materials for advanced power engineering, Part I, Kluwer Academic Publishers, Netherlands 1994 263-280.
23. Anonymous, Internal report, Nippon Kokan K.K., Japan 1987
24. T. Fujita, K. Asakura, T. Sawada, T. Takamatsu and Y. Otoguro, Metallurgical Transactions A 12A 1981 1071-1079.
25. T. Fujita and N. Takahashi, Trans. ISIJ 18 1979 269-278.
26. 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.
27. 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.
28. 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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Keywords

materials, data, creep, rupture, steel

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Download data

Download data library

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