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Meeting 2021 TMS Annual Meeting & Exhibition
Symposium Computational and Modeling Challenges in Metals and Alloys for Extreme Environments
Presentation Title Lattice Orientation Effect on Intragranular Void Growth in Single- and Poly-crystalline Metals
Author(s) Paul G. Christodoulou, Sylvain Dancette, Ricardo A Lebensohn, Eric Maire, Irene J Beyerlein
On-Site Speaker (Planned) Paul G. Christodoulou
Abstract Scope Void growth is an important deformation and damage mechanism in metals under extreme conditions and is dependent on the deformation of the material surrounding the voids. Recent developments in fast Fourier transform (FFT)-based modeling have allowed for faster and more thorough studies of grain-scale effects on void growth. The goal of this work is to understand the role of crystallography on void growth in FCC metals, and compare and cross-validate FFT-based and finite element (FE)-based models to predict crystallographic effects on void growth. To this end, voids in single crystals and polycrystals were simulated using a dilatational/crystal plasticity model implemented in an FFT-based solver (DVPFFT), as well as in its FE equivalent. This talk will discuss the developments made in both models, as well as the effect of crystallography on void growth, including the differences between single crystal and polycrystal materials.
Proceedings Inclusion? Planned:
Keywords Computational Materials Science & Engineering, Mechanical Properties, Modeling and Simulation

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Thermo-mechanical Model of the Dynamics of Dislocation Fields in Transient Heterogeneous Temperature Fields
Investigation of Role of Interface Microstructure on the Shock Compression and Spall Failure Behavior of Nanoscale Cu/Ta Multiphase Metallic Materials
Lattice Orientation Effect on Intragranular Void Growth in Single- and Poly-crystalline Metals
Mesoscale Modeling of Deformation Behavior of Fe-based Microstructures at High Strain Rates and under Shock Loading Conditions
Modeling of Laser Interactions with BCC Metals Using a Hybrid Atomistic-continuum Approach
Molecular Dynamics Modeling of the Influence of Magnesium Dopants on Grain Boundary Stabilization in Nanocrystalline Aluminum
Multi-scale Simulations of Crystallographic Facet-orientation Dependent Corrosion Behavior in Metallic Alloys
The Microscopic Structure of a Heavily Irradiated Metal
The Role of Precipitates on the Microstructure-sensitive Creep Response of 347H Steel via Crystal Plasticity Simulations
Understanding Interface Properties Through Dislocation Dynamics Simulations in Metallic Nanolaminates

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