期刊
JOURNAL OF MATERIALS RESEARCH
卷 32, 期 22, 页码 4241-4253出版社
CAMBRIDGE UNIV PRESS
DOI: 10.1557/jmr.2017.334
关键词
Fe; dislocations; hardness
资金
- US Department of Energy (DOE), Office of Fossil Energy [DE-FE0005868]
Two-dimensional dislocation dynamics (DD) simulations are performed to simulate the increase in strength of ferritic superalloys strengthened by ordered (B2)-NiAl precipitates. Parametric studies for three precipitate volume fractions (10, 13, and 20%) and various radii (from 1 to 75 nm) predict strengthening via a mixture of precipitate bypassing and shearing by single- and super-dislocations of edge or screw character. DD strength contributions for various precipitate radii (for a 13% volume fraction) are compared to analytical models for ordered precipitate strengthening: good agreement exists in the overaged state, but not in the peak-aged and underaged states for either dislocation configurations. DD strength contributions, converted to hardness values, are compared to experimental hardness values from previously reported literature on a ferritic superalloy [Fe-10Cr-10Ni-6.5Al-3.4Mo-0.25Zr-0.005B (wt%)] aged at various temperatures and times. DD hardness values from the single-edge dislocation simulations accurately predict the experimental peak hardness, but not the under- and over-aged hardness values or trends. By incorporating the effect of secondary NiAl nanoprecipitates formed on cooling and solid solution strengthening of Fe in the primary precipitates, reasonable agreement is achieved in the overaged condition.
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