Refine your search:     
Report No.
 - 

Formulation of high-temperature strength equation of 9Cr-ODS tempered martensitic steels using the Larson-Miller parameter and life-fraction rule for rupture life assessment in steady-state, transient, and accident conditions of fast reactor fuel

Miyazawa, Takeshi   ; Tanno, Takashi  ; Imagawa, Yuya ; Hashidate, Ryuta ; Yano, Yasuhide  ; Kaito, Takeji ; Otsuka, Satoshi   ; Mitsuhara, Masatoshi*; Toyama, Takeshi*; Onuma, Masato*; Nakashima, Hideharu*

This paper discusses the applicability of J.L. Straalsund et al.'s technique for combining the Larson-Miller parameter (LMP) and life-fraction rule to form a single high-temperature strength equation for 9Cr- oxide-dispersion-strengthened (ODS) tempered martensitic steels (TMS). It uses the extensive dataset on creep rupture, tensile, and temperature-transient-to-burst tests of 9Cr-ODS TMS cladding tubes in the $$alpha$$-phase, $$alpha$$/$$gamma$$-duplex, $$gamma$$-phase matrices, which are accumulated by the Japan Atomic Energy Agency so far. The technique is adequately applicable to 9Cr-ODS TMS cladding tubes. A single high-temperature strength equation expressing the mechanical strength in different deformation and rupture modes (creep, tensile, temperature-transient-to-burst) is derived for 9Cr-ODS TMS cladding tubes. This equation can predict the rupture life of the cladding tubes under various stresses and temperatures over time. The applicable range of the high-temperature strength equation is specified in this study and the upper limit temperature for the equation is found to be 1200$$^{circ}$$C. At temperatures higher than 1200$$^{circ}$$C, the coarsening and aggregation of nanosized oxide particles and the $$gamma$$ to $$delta$$ phase transformation are reported in previous studies. The high-temperature strength equation can be well applied to the creep and tensile strength in the $$alpha$$-phase matrix, the creep strength in the $$gamma$$-phase matrix and the temperature-transient-to-burst strength in both phases except for the low equivalent stress (43 MPa) at temperatures exceeding 1050$$^{circ}$$C. The mechanism of the notable consistency between creep and tensile strength in the $$alpha$$-phase matrix is discussed by analyzing the high-temperature deformation data in the light of existing deformation models.

Accesses

:

- Accesses

InCites™

:

Percentile:0.00

Category:Materials Science, Multidisciplinary

Altmetrics

:

[CLARIVATE ANALYTICS], [WEB OF SCIENCE], [HIGHLY CITED PAPER & CUP LOGO] and [HOT PAPER & FIRE LOGO] are trademarks of Clarivate Analytics, and/or its affiliated company or companies, and used herein by permission and/or license.