Effects of partial phase transformation on characteristics of 9Cr nanostructured ferritic alloy

Ji Hyun Yoon, Yongbok Lee, Suk Hoon Kang, Thak S. Byun, David T. Hoelzer

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

The core structures of future nuclear systems require tolerance to extreme irradiation, and some critical components, for example, the fuel cladding in Sodium-cooled Fast Reactors (SFRs), have to maintain mechanical integrity to very high doses of 200-400 dpa at high temperatures up to 700 °C. The high Cr nanostructured ferritic alloys (NFAs) are under intense research worldwide as a candidate core material. Although the NFAs have some admirable characteristics for high-temperature applications, their crack sensitivity is very high at high temperatures. The fracture toughness of high strength NFAs is unacceptably low above 300 °C. The objective of this study is to develop processes and microstructures with improved high temperature fracture toughness and ductility. To optimize the afterextrusion heat treatment condition, both the computational simulation technique on phase equilibrium and the basic microstructural and mechanical characterization have been carried out. 9 Cr-NFA was produced by the mechanical alloying of pre-alloyed Fe-9Cr base metallic powder and yttria particles, and subsequent extrusion. The post-extrusion heat-treatments of various conditions were applied to the asextruded NFA. The tensile and fracture toughness tests were conducted for as-extruded and heat-treated samples at up to 700°C. Fracture toughness of the NFA has increased by more than 40% at every testing temperature after heat-treatment in the inter-critical temperature range. The increment of fracture toughness of the NFA after post-extrusion heat-treatment is attributed to the increased strength at below 500°C, and an increased ductility at 700°C.

Original languageEnglish
Pages (from-to)47-50
Number of pages4
JournalCurrent Nanoscience
Volume10
Issue number1
DOIs
StatePublished - 2014

Keywords

  • Fracture toughness
  • Nanostructured ferritic alloy
  • Nuclear
  • ODS
  • Strength

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