- Advanced Material Models
- Articificial Inteligence Techniques
- Big Data Analytics Techniques
- Biomechanics
- Blast problems
- Composites
- Computational Material Design
- Contact Problems
- Damage, Fracture and Fatigue
- Data Driven Constitutive Models
- Environment and Geosciences
- FEM and Particle-Based Methods
(Discrete Element Methods,
Material Point Methods,
SPH Methods, Meshless Methods, Particle Finite Element Method, etc.)
- Forming Processes
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- Geo-Science
- Geomechanics
- Granular Materials Processes
- High Velocity Impact
- Industrial Applications
- Machine Learning Techniques
- Model Reduction Techniques
- Multi-Body and Non-Linear Dynamics
- Multi-Fracturing Solids
- Multi-Physics Problems
- Multi-Scale Material Models
- Nano-Mechanics
- Parallel Computing
- Real Time Computing Techniques
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