Datasets with tag: Deformation modes
| Dataset | Description | Authors | Tags | Published | Updated | Date |
|---|---|---|---|---|---|---|
| Characterizing Microscale Deformation Mechanisms and Macroscopic Tensile Properties of a High Strength Magnesium Rare-Earth Alloy WE43-T5 : A Combined Experimental and Crystal Plasticity Approach | This dataset includes initial EBSD maps of the Magnesium Rare-Earth alloy, SEM-DIC datasets with displacement and strain maps for a given Field of View (FOV), and Crystal Plasticity Finite Element simulations of the strain field, slip and twin activity for the same FOVs by setting up a Boundary Value Problem (BVP) with same boundary displacement conditions as the experimental data. The simulations have been performed using the PRISMS-CPFE code. The experimental input displacement and strain maps are in .mat format, readable by programs such as Matlab. The output files are in the *.vtu format, readable by programs such as VisIt and ParaView. Details regarding the simulation and characterization methods can be found in the linked paper. U.S. Department of Energy, Office of Basic Energy Sciences, Division of Materials Sciences, Award Number DE-SC0008637 | Alan Githen, Sriram Ganesan, Zhe Chen, John Allison, Veera Sundararaghavan, Samantha Daly | Magnesium Deformation modes Digital Image Correlation DIC Crystal Plasticity PRISMS-CPFE WE43 | 5 years ago | 4 years ago | 2021-04-12 13:31:55 |
| The effects of heat treatment on the response of WE43 Mg alloy: crystal plasticity finite element simulation and SEM-DIC experiment | This dataset includes initial EBSD maps of the Magnesium Rare-Earth alloy, SEM-DIC datasets with displacement and strain maps for a given Field of View (FOV), and Crystal Plasticity Finite Element simulations of the strain field, slip and twin activity for the same FOVs by setting up a Boundary Value Problem (BVP) with same boundary displacement conditions as the experimental data. The simulations have been performed using the PRISMS-CPFE code. The experimental input displacement and strain maps are in .mat format, readable by programs such as Matlab. The output files are in the *.vtu format, readable by programs such as VisIt and ParaView. This work was supported by the U.S. Department of Energy, Office of Basic Energy Sciences, Division of Materials Sciences and Engineering under Award#DE-SC0008637 as part of the Center for Predictive Integrated Structural Materials Science (PRISMS Center) at University of Michigan. | Sriram Ganesan, Mohammadreza Yaghoobi, Alan Githens, Zhe Chen, Samantha Daly, John Allison, Veera Sundararaghavan | Magnesium Deformation modes Digital Image Correlation Crystal Plasticity PRISMS-CPFE WE43 SEM-DIC | 5 years ago | 4 years ago | 2021-04-12 13:31:55 |