Portal de Periódicos da CAPES

Kinetic Approach for Growth and Coalescence of Nano-Size Oxide Particles in 9Cr-ODS Steel Using High-Energy Synchrotron Radiation X-rays in SPring-8

2009; Volume: 50; Issue: 4 Linguagem: Inglês

10.2320/matertrans.mer2008439

1347-5320

Sa-Woong Kim, Takahisa Shobu, Satoshi Ohtsuka, Takeji Kaito, Masaki Inoue, M. Ohnuma,

Metal and Thin Film Mechanics

Nanometer size oxide particles in 9Cr-ODS steel are dispersed finely and densely in a matrix by the hot-solidification process. The size and density distribution of dispersed oxide particles is recognized as one of the main issues for ensuring good microstructural stability and high temperature strength in a high temperature (<700°C) and neutron irradiation (250 dpa) environment. However, the behavior of oxide particles in the hot-solidification process has not been determined yet. This study evaluated the correlation between nano-size oxide particles and the heat treatment temperature and time in order to characterize the mechanism of formation and the behavior during growth and coalescence of these particles in 9Cr-ODS steel raw powder. XRD and SAXS measurements were made using high-energy synchrotron radiation X-rays in SPring-8. This is the first report of the oxide complex particles (Y2Ti2O7 and Y2TiO5) being formed from 800 to 960°C, and they were observed to grow and coalesce on increasing both heat-treatment temperature and time.