Phenomenology of shear coupled grain boundary motion in symmetric tilt and general grain boundaries
Proposed for publication in Acta Materialia.
Abstract not provided.
Publications
Deformation of Ta: From slow to fast
Abstract not provided.
Overview:Incorporating microstructural scale damage into continuum models for performance of structural materials
Abstract not provided.
Computing grain boundary properties using atomistic simulations
Abstract not provided.
Hybrid Potts-Phase Field Model for Coupled Microstructural-Compositional Evolution
Proposed for publication in Modelling and Simulation in Materials Science and Engineering.
Abstract not provided.
Metallography 3D Reconstructions & kinetic Monte Carlo
Abstract not provided.
Impact of Atomistic Simulations on Understanding Grain Growth
Abstract not provided.
Simulation of Recrystallization in Uranium Dioxide Nuclear Fuels
Abstract not provided.
An ICME approach to solder joint lifetime prediction
Abstract not provided.
An ICME approach to predict performance margins caused by microstructural variability
Abstract not provided.
The Enhancement of Grain Growth in Copper During Microindentation at Low Temperatures
Abstract not provided.
Simulations and Experiments of the Deformation Behavior of BCC Metals
Abstract not provided.
Incorporating atomistic data of lattice friction into BCC crystal plasticity models
International Journal of Plasticity
Despite the technological importance of body-centered cubic (BCC) metals, models of their plastic deformation are less common than those of face-centered cubic (FCC) metals, due in part to the complexity of slip in BCC crystals caused by the thermal activation of screw dislocation motion. This paper presents a physically based crystal plasticity model that incorporates atomistic models and experimental measurements of the thermally activated nature of screw dislocation motion. This model, therefore, reproduces the temperature, stress, and strain rate dependence of flow in BCC metals in a simple formulation that will allow for large, grain-scale simulations. Furthermore, the results illustrate the importance of correctly representing mechanistic transitions in materials with high lattice friction. © 2012 Elsevier Ltd. All rights reserved.
Recrystallized grain size in single phase materials
Materials Science Forum
During large-strain plastic deformation, subgrain structures typically develop within the grains. At large enough equivalent strains above, say 0.5, recrystallization occurs via abnormal coarsening of the subgrain structure or abnormal (sub-) grain growth (AsGG). The fraction of subgrains that develop into new, recrystallized grains has been quantified as a function of texture spread (Grain Reference Orientation Deviation) using Monte Carlo simulation. When this fraction is combined with the known monotonic increase in mean misorientation with strain, the recrystallized grain size can be predicted as a function of von Mises strain. The prediction is in good agreement with experimental results drawn from the literature. © (2012) Trans Tech Publications, Switzerland.
Sandia Pb-free Solder Lifetime Model
Abstract not provided.
Predicting Performance Margins (PPM):Linking the microscale to the macroscale
Abstract not provided.
Multiscale modeling of low temperature deformation in BCC metals
JOM
Abstract not provided.
Copy of Grain Boundary Mythbusters: A survey of grain boundary motion mechanisms
Abstract not provided.
A physically-based model for low-temperature plasticity in BCC metals
Abstract not provided.
Modeling Nuclear Fuels with a Combined Potts-Phase Field Model
Abstract not provided.
A MODEL FOR SIMULATION OF COUPLED MICROSTRUCTURAL AND COMPOSITIONAL EVOLUTION
Journal of Nuclear Materials
Abstract not provided.
Modeling the mechanical behavior of amorphous and crystalline engineering materials
Abstract not provided.
A MODEL FOR DYNAMIC RECRYSTALLIZATION IN UO2 LWR NUCLEAR FUELS
Journal of Nuclear Materials
Abstract not provided.
Simulation of Recrystallization in Uranium Dioxide Nuclear Fuels
Abstract not provided.
A MODEL FOR SIMULATION OF COUPLED MICROSTRUCTURAL AND COMPOSITIONAL EVOLUTION
Abstract not provided.
Results 1–25 of 83