2017
DOI: 10.2172/1401966
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FY17 Status Report on the Micromechanical Finite Element Modeling of Creep Fracture of Grade 91 Steel

Abstract: Advanced reactors designed to operate at higher temperatures than current light water reactors require structural materials with high creep strength and creep-fatigue resistance to achieve long design lives. Grade 91 is a ferritic/martensitic steel designed for long creep life at elevated temperatures. It has been selected as a candidate material for sodium fast reactor intermediate heat exchangers and other advanced reactor structural components. This report focuses on the creep deformation and rupture life o… Show more

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Cited by 6 publications
(20 citation statements)
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“…The above-mentioned grain boundary cavitation model is a classical one. Recently, Messner et al [ 43 ] and Zhang et al [ 44 , 45 ] employed it to model creep fracture of creep-resistant ferritic steels, showing its computing capability of predicting the effects of microstructure, stress and temperature on creep damage.…”
Section: Modelmentioning
confidence: 99%
See 1 more Smart Citation
“…The above-mentioned grain boundary cavitation model is a classical one. Recently, Messner et al [ 43 ] and Zhang et al [ 44 , 45 ] employed it to model creep fracture of creep-resistant ferritic steels, showing its computing capability of predicting the effects of microstructure, stress and temperature on creep damage.…”
Section: Modelmentioning
confidence: 99%
“…The damage model parameters of grain boundary cavity coalescence are mainly obtained by Wen et al [ 13 , 41 ] and Messner et al [ 43 ]. All the parameters are listed in Table 2 .…”
Section: Finite Element Implementationmentioning
confidence: 99%
“…The prior austenite grain (PAG) model and the grain boundary cavitation (GBC) model. Previous work calibrated the PAG and GBC models to fit the deterministic average of a set of Grade 91 experimental [3,12,22,23]. However, a deterministic model cannot capture the experimentally observed variability in creep-rupture life.…”
Section: Grain Boundary Cavitation Modelmentioning
confidence: 99%
“…The modeling approach employs initially zero-thickness 2D interface elements on the boundaries of 3D PAG, as shown in figure 5(b), with an associated traction-separation (cohesive) model. The cohesive model for cavity nucleation, growth, coalescence and viscous grain boundary sliding derives from multiple decades of effort starting with Ashby and co-workers [42,43,72] on spherical cavities, and more recently by Sham and co-workers [73,74]. Our efforts are the first to extend the model to 3D grain boundaries that enables far more realistic (geometrical) representations of the surfaces connecting grains.…”
Section: Pagb Constitutive Modelmentioning
confidence: 99%