| About this Abstract |
| Meeting |
2023 TMS Annual Meeting & Exhibition
|
| Symposium
|
Late News Poster Session
|
| Presentation Title |
F-4: An End-to-end Crystal Plasticity Framework for Single and Multiscale Analysis as it Relates to ICME |
| Author(s) |
Deepankar Pal, Grama Bhashyam, Anupam Neogi |
| On-Site Speaker (Planned) |
Deepankar Pal |
| Abstract Scope |
A serious bottleneck towards full adoption of the ICME framework is the unavailability of end-to-end tools resulting in a user organization to negotiate multiple simulation vendor contracts.
At Ansys, we believe, that by creating end-to-end tools in a step-by-step manner, the above-mentioned conundrum could be solved.
Materials could be classified into Crystalline, Amorphous, Semi-Crystalline and their hybrids. At Ansys, the structure-property ICME vertical wrt Crystal Plasticity takes precedence due to our traditional performance simulation superiority in addition to its relation to our corporate goals.
To show effectiveness of our Crystal Plasticity approach, an end-to-end solution will be shown. Salient features include Microstructure preprocessing and meshing in PyAnsys, solution using Ansys Mechanical alongwith post-processing in Ansys Mechanical for result visualization and demonstration of multiscale capabilities using a new Pythonic interface. In addition, material microstructure, boundary condition and mechanistic variations will be demonstrated using practical and innovative case studies. |
| Proceedings Inclusion? |
Undecided |
| Keywords |
ICME, Modeling and Simulation, Other |