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Knjižnica IMT
  • A model based creep equation for 9Cr-1Mo-0.2V (P91 type) steel
    Ule, Boris ; Nagode, Aleš, 1975-
    The isothermal constant stress creep tests data for a 9Cr-1Mo-0.2V (P91 type) steel were submitted for a phenomenological analysis in order to obtain the relevant creep equation for such steel. ... Namely, the minimum creep strain rate of P91 type steel cannot be described by the simple Arrhenius type power law constitutive model. The incorporation of the threshold stress concept in the analysis of creep data leads to a modified power law, which satisfactorily describes the creep behaviour of the examined P91 steel. However, the threshold stress is not a good material parameter, as it often varies with temperature and/or applied stress. This adds uncertainty to the extrapolation of the creep rates into ranges where experimental data are not available. Besides the fact that the physical foundation for a threshold stress is questionable from a scientific point of view, this is a serious practical limitation of the modified power law creep equation. The second creep equation proposed in the present paper is the improved stress dependent energy barrier model. The improvement of the standard model is based on two assumptions: first, on the hypothesis that the application of a stress also affects the energy barrier to be overcome when a local region transitions from the initial to the final state, and second, by applying a simple power function of stress instead of a hyperbolic sin function in the model based equation. The obtained value of stress exponent, n=5.5, is too high for entirely climb controlled creep. The apparent activation energy of approximately 510 to 545 kJ mol[sup]{-1}, which is considerably higher than the activation energy for lattice diffusion, is the stress dependent activation energy of the slowest, dominant rate controlling process of the supposed multiple creep mechanisms.
    Vir: Materials science and technology. - ISSN 0267-0836 (Vol. 23, no. 11, 2007, str. 1367-1374)
    Vrsta gradiva - članek, sestavni del
    Leto - 2007
    Jezik - angleški
    COBISS.SI-ID - 679594

vir: Materials science and technology. - ISSN 0267-0836 (Vol. 23, no. 11, 2007, str. 1367-1374)

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