Biaxial Creep Behavior of Nb-Modified Zircaloys

Pratik Joshi, Micah Tillman, Nilesh Kumar, Korukonda Murty, Nedim Cinbiz

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

Zirconium-niobium (Zr-Nb) alloys are used as cladding materials to encapsulate radioactive fuel in nuclear reactors. They possess excellent corrosion resistance at high temperatures making it possible to achieve high fuel burnup, directly increasing the thermal efficiency of the reactor. While they are commonly used in recrystallized (Rx) form in boiling water reactors, there is a need to understand the effect of cold work and stress relief (CWSR) on the biaxial creep characteristics of these materials due to their use in pressurized water reactors. In this study, the biaxial creep behaviors of as-received Zr-Nb alloys, HANA and Zirlo®, have been investigated at 500°C and 400°C, respectively, using internally pressurized tubing superimposed with axial load under varied hoop σθ to axial σz stress ratios of 0 to 2 while monitoring both the axial and hoop strains using a linear variable displacement transformer and a laser telemetric extensometer, respectively. The crystallographic textures and creep loci of these as-received Zr-Nb alloys have been evaluated to correlate with the previous studies on recrystallized HANA4 and CWSR Zircaloy-4. The creep locus of HANA4 was found to be unaffected by initial state (CWSR or Rx) and showed close correspondence to planar isotropy while the creep locus of CWSR Zirlo exhibited more resistance to axial deformation than diametrical as per CWSR Zircaloy-4 reported earlier. These differences are shown to arise from grain-shape anisotropy of the CWSR Zirlo and Zircaloy-4. The simulated creep loci using crystallite-orientation distribution functions in conjunction with prism slip models showed excellent agreement with experimental results.

Original languageEnglish
Pages (from-to)706-716
Number of pages11
JournalNuclear Technology
Volume206
Issue number5
DOIs
StatePublished - May 3 2020
Externally publishedYes

Funding

This paper is based on a Master of Science thesis by Pratik Joshi and a Master of Nuclear Engineering project by Micah Tillman. We acknowledge the financial support from National Science Foundation grant CMMI1727237 and thank Alexis Lewis of ORNL for support and encouragement. This paper is based on a Master of Science thesis by Pratik Joshi and a Master of Nuclear Engineering project by Micah Tillman. We acknowledge the financial support from National Science Foundation grant CMMI1727237 and thank Alexis Lewis of ORNL for support and encouragement.

FundersFunder number
Micah Tillman
National Science FoundationCMMI1727237
Oak Ridge National Laboratory

    Keywords

    • Zr-Nb alloys
    • anisotropy
    • biaxial creep test
    • crystallite-orientation distribution function
    • grain-shape anisotropy

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