Fork "mypanda" to create a new MOOSE-based application.
For more information see: https://mooseframework.org/getting_started/new_users.html#create-an-app
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Polycrystalline Simulations in Coupled PC-PF Model:
- Objective: Extend the current bicrystal simulation capabilities to support polycrystalline structures.
- Details:
- Implement the framework to handle multiple grains in the coupled crystal plasticity–phase field (CP-FP) model.
- Aim to simulate more complex microstructure behaviors and interactions within polycrystalline materials.
- References: Based on the methodology outlined in the paper "Coupled crystal plasticity–phase field simulation of microstructure evolution in dual-phase steels".
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Incorporation of Grain Rotation Mechanism:
- Objective: Enhance the simulation model by including the mechanism of grain rotation.
- Details:
- Develop and integrate models that account for the rotational behavior of grains.
- Improve the realism and accuracy of microstructure evolution simulations by considering grain rotation.
- Refactoring Code in
prm2_ThermalGNS_AGG2023:- Objective: Improve the existing codebase for better performance, readability, and maintainability.
- Details:
- Refactor the code related to the thermal grain boundary network structure (GNS) simulations.
- Ensure that the refactored code is modular, efficient, and adheres to best practices in software development.
- Current Progress:
- Identified key areas for improvement.
- Working on breaking down monolithic code into smaller, reusable functions.
- Conducting tests to ensure that refactoring does not affect the functionality of the simulations.