MAIN TOPICS

COMEC 2021 TOPICS

Mechanics of Solids
Calculus Methods in Mechanics of Solids
Advanced Mechanics in Robotics
Tribology and Micro-Nano Systems
Optimal Design of the Mechanical Systems
Acoustics and Vibrations
Indoor ambient acoustics
Acoustics systems of road, air and rail
Vibrations of structural systems
Mechanical vibrations of technological equipment
Isolation and dissipation systems for seismic actions on buildings, bridges and viaducts
Mathematical Modeling in Mechanics of Solids
Experimental Methods involved in validation of Computational Methods
Finite Element Method, Boundary Element Methods, Mesh less Methods, Multiscale Methods, Optimization Methods and Sensitivities, Discretization Methods, Mathematical Foundations, High Performance Computing, Inverse Problem, Visualization
Experimental Methods involved in Computational Solid Mechanics (Material Modelling, Finite Deformations and Localization, Micromechanics and Multiscale Modelling, Nanomechanics, Nonlinear Analysis of Structures, Multibody Dynamics and Robotics, Composite Structures, Structural Optimization)
Experimental Methods applied in Composites Materials and Industrial Engineering Applications
Experimental Methods applied in Biomechanics (Biosolid Modelling, Modelling of Biofluids, Multiscale Modelling, Medical Imaging and Modelling, Medical Applications)
General Engineering problems solved by mean of Classical and Modern Experimental Methods
Innovative structural systems
Sustainability and life-cycle
High Performance Computing, Inverse Problem, Visualization Optimization validated by experiments
Applied Thermodynamics
Heat Transfer
Fluid Mechanics
Renewable Energy

MAIN TOPICS

COMEC 2021 TOPICS

Mechanics of Solids

Calculus Methods in Mechanics of Solids

Advanced Mechanics in Robotics

Tribology and Micro-Nano Systems

Optimal Design of the Mechanical Systems

Acoustics and Vibrations

Indoor ambient acoustics

Acoustics systems of road, air and rail

Vibrations of structural systems

Mechanical vibrations of technological equipment

Isolation and dissipation systems for seismic actions on buildings, bridges and viaducts

Mathematical Modeling in Mechanics of Solids

Experimental Methods involved in validation of Computational Methods

Finite Element Method, Boundary Element Methods, Mesh less Methods, Multiscale Methods, Optimization Methods and Sensitivities, Discretization Methods, Mathematical Foundations, High Performance Computing, Inverse Problem, Visualization

Experimental Methods involved in Computational Solid Mechanics (Material Modelling, Finite Deformations and Localization, Micromechanics and Multiscale Modelling, Nanomechanics, Nonlinear Analysis of Structures, Multibody Dynamics and Robotics, Composite Structures, Structural Optimization)

Experimental Methods applied in Composites Materials and Industrial Engineering Applications

Experimental Methods applied in Biomechanics (Biosolid Modelling, Modelling of Biofluids, Multiscale Modelling, Medical Imaging and Modelling, Medical Applications)

General Engineering problems solved by mean of Classical and Modern Experimental Methods

Innovative structural systems

Sustainability and life-cycle

High Performance Computing, Inverse Problem, Visualization Optimization validated by experiments

Applied Thermodynamics

Heat Transfer

Fluid Mechanics

Renewable Energy