Title of article
Microstructure and mechanical behavior of neutron irradiated ultrafine grained ferritic steel
Author/Authors
Alsabbagh، نويسنده , , Ahmad and Sarkar، نويسنده , , Apu and Miller، نويسنده , , Brandon and Burns، نويسنده , , Jatuporn and Squires، نويسنده , , Leah and Porter، نويسنده , , Douglas L. Cole، نويسنده , , James I. and Murty، نويسنده , , K.L.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
11
From page
128
To page
138
Abstract
Neutron irradiation effects on ultra-fine grain (UFG) low carbon steel prepared by equal channel angular pressing (ECAP) have been examined. Counterpart samples with conventional grain (CG) sizes have been irradiated alongside with the UFG ones for comparison. Samples were irradiated in the Advanced Test Reactor (ATR) at Idaho National Laboratory (INL) to 1.37 dpa. Atom probe tomography revealed manganese and silicon-enriched clusters in both UFG and CG steel after neutron irradiation. Mechanical properties were characterized using microhardness and tensile tests, and irradiation of UFG carbon steel revealed minute radiation effects in contrast to the distinct radiation hardening and reduction of ductility in its CG counterpart. After irradiation, micro hardness indicated increases of around 9% for UFG versus 62% for CG steel. Similarly, tensile strength revealed increases of 8% and 94% respectively for UFG and CG steels while corresponding decreases in ductility were 56% versus 82%. X-ray quantitative analysis showed that dislocation density in CG increased after irradiation while no significant change was observed in UFG steel, revealing better radiation tolerance. Quantitative correlations between experimental results and modeling were demonstrated based on irradiation induced precipitate strengthening and dislocation forest hardening mechanisms.
Keywords
Ultrafine-grained materials , Neutron irradiation effects , Low carbon steel , Precipitate strengthening , Dislocation forest hardening
Journal title
MATERIALS SCIENCE & ENGINEERING: A
Serial Year
2014
Journal title
MATERIALS SCIENCE & ENGINEERING: A
Record number
2176819
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