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Features of the Transient Creep under an Irradiation

T. P. Didenko1, P. О. Selyshchev2

1Taras Shevchenko National University of Kyiv, 64 Volodymyrska Str., 01601 Kyiv, Ukraine
2University of Pretoria, Department of Physics, Private bag X20, 0028 Hatfield, South Africa

Received: 25.07.2015. Download: PDF

The temporal dependence of creep rate of metal under an irradiation is theoretically obtained in this paper. The conditions of zero minimums of the creep-rate existence as well as the times of their appearance are determined. The changing of the position of creep-rate dips in the conditions of the temperature exposure change is investigated. The obtained results are compared with the experimentally observed dependence of the creep rate on time.

Key words: creep, irradiation, vacancies, interstitial atoms, dislocations.

URL: http://mfint.imp.kiev.ua/en/abstract/v38/i02/0175.html

DOI: https://doi.org/10.15407/mfint.38.02.0175

PACS: 61.72.Hh, 61.72.J-, 61.80.Az, 61.82.Bg, 62.20.Hg, 81.40.Lm, 81.40.Wx

Citation: T. P. Didenko and P. О. Selyshchev, Features of the Transient Creep under an Irradiation, Metallofiz. Noveishie Tekhnol., 38, No. 2: 175—187 (2016) (in Russian)


REFERENCES
  1. Sh. Sh. Ibragimov, V. V. Kirsanov, and Yu. S. Pyatiletov, Radiatsionnye Povrezhdeniya Metallov i Splavov (Moscow: Energoatomizdat: 1985) (in Russian)
  2. F. A. Garner and D. S. Gelles, J. Nucl. Mater., 159: 286 (1988) Crossref
  3. G. S. Was, Fundamentals of Radiation Materials Science (Berlin–Heidelberg–New York: Springer: 2011)
  4. V. S. Karasev, Voprosy Atomnoy Nauki i Tekhniki. Seriya: Fizika Radiatsionnykh Povrezhdeniy i Radiatsionnoe Materialovedenie, No. 5 (19): 84 (1981) (in Russian)
  5. W. Schüle and H. Hausen, J. Nucl. Mater., 212–215: 388 (1994) Crossref
  6. P. A. Selishchev, Samoorganizatsiya v Radiatsionnoy Fizike (Kiev: Aspekt-Poligraf: 2004) (in Russian)
  7. V. S. Karasev and A. Yu. Totskiy, Voprosy Atomnoy Nauki i Tekhniki. Seriya: Fizika Radiatsionnykh Povrezhdeniy i Radiatsionnoe Materialovedenie, No. 1 (52): 37 (1990) (in Russian)
  8. V. S. Karasev, A. Yu. Totskiy, and L. S. Ozhigov, Voprosy Atomnoy Nauki i Tekhniki. Seriya: Fizika Radiatsionnykh Povrezhdeniy i Radiatsionnoe Materialovedenie, No. 1 (61): 3 (1994) (in Russian)
  9. M. B. Toloczko, F. A. Garner, and C. R. Eiholzer, J. Nucl. Mater., 212–215: 604 (1994) Crossref
  10. E. S. Aitkhozhin and E. V. Chumakov, J. Nucl. Mater., 233–237: 537 (1996) Crossref
  11. A. Kohyama, Y. Kohno, K. Asakura, M. Yoshino, C. Namba, and C. R. Eiholzer, J. Nucl. Mater., 212–215: 751 (1994) Crossref
  12. Y. Kurato and H. Nakajima, J. Nucl. Mater., 228: 176 (1996) Crossref
  13. L. N. Bystrov, L. I. Ivanov, and A. B. Tsepelev, Voprosy Atomnoy Nauki i Tekhniki. Seriya: Fizika Radiatsionnykh Povrezhdeniy i Radiatsionnoe Materialovedenie, No. 2 (35): 54 (1985) (in Russian)
  14. P. A. Selishchev and V. J. Sugakov, Metallofiz. Noveishie Tekhnol., 22, No. 5: 46 (2000) (in Russian)
  15. P. Selyshchev and V. Sugakov, Fatigue Fract. Engng Mater. Struct., 36: 1123 (2013) Crossref
  16. T. P. Didenko and P. A. Selishchev, Nuclear Physics and Atomic Energy, 12, No. 2: 158 (2011) (in Russian)
  17. T. P. Didenko and P. O. Selyshchev, Metallofiz. Noveishie Tekhnol., 34, No. 10: 1347 (2012) (in Russian)
  18. I. M. Neklyudov and N. V. Kamishanchenko, Fizicheskie Osnovy Prochnosti i Plastichnosti Metallov. Part 2: Defekty v Kristallakh (Belgorod: Pedagogika-Press, BelGU: 1997) (in Russian)