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Title: Embrittlement and Flow Localization in Reactor Structural Materials

Technical Report ·
DOI:https://doi.org/10.2172/892910· OSTI ID:892910
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Many reactor components and structural members are made from metal alloys due, in large part, to their strength and ability to resist brittle fracture by plastic deformation. However, brittle fracture can occur when structural material cannot undergo extensive, or even limited, plastic deformation due to irradiation exposure. Certain irradiation conditions lead to the development of a damage microstructure where plastic flow is limited to very small volumes or regions of material, as opposed to the general plastic flow in unexposed materials. This process is referred to as flow localization or plastic instability. The true stress at the onset of necking is a constant regardless of the irradiation level. It is called 'critical stress' and this critical stress has strong temperature dependence. Interrupted tensile testes of 316L SS have been performed to investigate the microstructure evolution and competing mechanism between mechanic twinning and planar slip which are believed to be the controlling mechanism for flow localization. Deformation twinning is the major contribution of strain hardening and good ductility for low temperatures, and the activation of twinning system is determined by the critical twinning stress. Phases transform and texture analyses are also discussed in this study. Finite element analysis is carried out to complement the microstructural analysis and for the prediction of materaials performance with and without stress concentration and irradiation.

Research Organization:
University of Illinois at Urbana-Champaign, Urbana, IL
Sponsoring Organization:
USDOE - Office of Nuclear Energy, Science and Technology (NE)
DOE Contract Number:
FG07-02ID14337
OSTI ID:
892910
Report Number(s):
DOE/ID/14337-1; TRN: US201201%%3
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
ALLOYS
BUILDING MATERIALS
DEFORMATION
DUCTILITY
EMBRITTLEMENT
FORECASTING
FRACTURES
INSTABILITY
IRRADIATION
MICROSTRUCTURE
PERFORMANCE
PLASTICS
REACTOR COMPONENTS
SLIP
STRAIN HARDENING
TEMPERATURE DEPENDENCE
TESTES
TEXTURE
TWINNING
Embrittlement
flow localization
critical stress
mechanical properties
ductility
mechanical twinning
dislocation slip
texture
finite element analysis