About this Abstract |
Meeting |
2022 TMS Annual Meeting & Exhibition
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Symposium
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Hume-Rothery Symposium on Connecting Macroscopic Materials Properties to Their Underlying Electronic Structure: The Role of Theory, Computation, and Experiment
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Presentation Title |
Integrating Theory, Simulation and Experiment to Accelerate Predictive Materials Science |
Author(s) |
John E. Allison |
On-Site Speaker (Planned) |
John E. Allison |
Abstract Scope |
The PRISMS Center was founded to address key challenges posed by the Materials Genome Initiative. This talk will review PRISMS Center’s progress in creation and dissemination of a framework for accelerating predictive materials science. There are three key elements of this framework. This first is a suite of high performance, open-source multi-scale computational tools for predicting microstructural evolution and mechanical behavior of structural metals. The second is the Materials Commons, a knowledge repository and virtual collaboration space for archiving and disseminating information. The third element is a set of scientific “Use Cases” in which the results of simulations, experiments and theory are integrated to accelerate predictive understanding of magnesium and Mg alloys. This talk will focus on our progress improving understanding of twinning and detwinning in Mg and Mg alloys during cyclic deformation by integrating knowledge ranging from electronic and atomistic structure to microscopic and macroscopic mechanical behavior.
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Proceedings Inclusion? |
Planned: |
Keywords |
Computational Materials Science & Engineering, Magnesium, |