The main congress topics are (but not restricted to) computational mechanics of materials, computational nanoscience and nanotechnology, computational methods in biological and biomedical applications, computational solid and structural mechanics, multiphysics applications, energy research, structural integrity and reliability, manufacturing, inverse problems and optimization, computational fluid dynamics and fluid-structure interaction, verification and validation, computational environmental sciences, computational geomechanics, chemistry, electro-magnetics, acoustics, artificial intelligence, expert systems and computer science issues.
A more complete list of pertinent topics is displayed below.
• Artificial Intelligence and Expert Systems
• Boundary Element Methods
• CAD, CAM and CAE
• Computational Acoustics
• Computational Adaptive Materials Systems, Structures and Smart Materials
• Computational Advances in Composite Machining
• Computational Biomechanics
• Computational Damage Mechanics
• Computational Dynamic Failure and Fracture
• Computational Engineering Sciences and Physics
• Computational Environmental Science
• Computational Fluid Mechanics and Fluid-Structure Interaction
• Computational Geomechanics
• Computational Ice Mechanics
• Computational Infrastructures and Aging Structures
• Computational Inverse Problems and Optimization
• Computational Materials Science
• Computational Mechanics of Materials
• Computational MEMS and Bio-MEMS
• Computational Methods in Biological and Biomedical Applications
• Computational Methods in Chemistry
• Computational Methods in Electro-Magnetics
• Computational Methods in Energy Research
• Computational Methods in Life Sciences
• Computational Methods in Structural Integrity and Reliability
• Computational Microtribology and Micromechanics
• Computational Nanoscience and Nanotechnology
• Computational NDE and Wave Propagation
• Computational Nonlinear Dynamics
• Computational Polymers and Polymer Composites
• Computational Solid and Structural Mechanics
• Computer Simulation of Processes and Manufacturing
• Data and Signal Processing
• Extended and Generalized Finite Element Methods
• High Performance and Parallel Computing
• Mathematical Foundations
• Meshless, Meshfree and Wavelet Methods
• Mixed and Hybrid Methods
• Multiple-Scale Physics and Computation
• Particle Methods
• Scientific Visualization
• Uncertainty and Stochastic Analysis
• Verification and Validation