STEM / applied
Micromechanics · Graduate · Engineering
Topics
Multiscale simulation and experiments
- Two-scale FE² computational homogenization
- Crystal plasticity FE implementation
- EBSD and microscopy for model calibration
- Nanoindentation for local property measurement
- Additive manufacturing microstructure prediction
- Battery electrode particle mechanics
- Biological tissue microstructure modeling
- Machine learning microstructure-property maps
- Thesis in computational materials science
- Lab tour of microscopy facilities
Research frontiers
- High-entropy alloy microstructure modeling
- Irradiation damage in nuclear materials
- Chemo-mechanical coupling in battery materials
- Machine learning interatomic potentials
- Digital twin of material processing
- Peer review of micromechanics journals
- Industry needs in lightweight alloy design
- Open-source micromechanics software survey
- Conference presentation of RVE results
- Qualifying exam micromechanics preparation
Pricing
Graduate-level rates are set on consultation. See the pricing page for K–12 and undergraduate rates.