COBEM is organized into 18 symposia.
The symposia are coordinated by program committees (https://eventos.abcm.org.br/cobem2023/about/program-committee-2/).
The presentations of each symposium are organized in technical sessions with oral and poster presentations.
The symposia are:
- Aerospace Engineering
- Aerodynamics
- Aerospace Structures
- Control Systems and Aeroelasticity
- Flight Dynamics
- Propulsion
- Bioengineering
- Biofluids Dynamics and Bioheat Transfer
- Biomaterials and Biotribology
- Biomechanics
- Biorobotics and Artificial Intelligence
- Implants, Orthoses, and Prostheses
- Medical Devices
- Combustion
- Chemical Kinetics and Modeling
- Combustion, Pyrolysis, and Gasification of Solids and Liquids
- Diagnostics
- Emissions
- Fire Science and Technology
- Gas Turbine and Rocket Engine Combustion
- Internal Combustion Engines
- Laminar Flames
- Other Concepts on Combustion
- Solid Fuel Combustion
- Soot, Nanomaterials, and Large Molecules
- Spray, Droplet, and Supercritical Combustion
- Stationary Combustion Systems and Control of Greenhouse
- Turbulent Flames
- Dynamics, Control, Vibrations, and Acoustics
- Acoustics and Vibroacoustics
- Control of Mechanical Systems
- Dynamics of Mechanical Systems
- Multibody Systems
- Nonlinear Dynamics
- Rotordynamics
- Smart Structures
- Structural Dynamics and Vibrations
- Vehicle Dynamics
- Education
- Teaching and Learning in Future Engineering Education
- Energy and Thermal Sciences
- Applied Heat and Mass Transfer
- Computational Intelligence Applied to Thermal Systems
- Heat and Mass Transfer Fundamentals
- Nuclear Energy
- Numerical Heat Transfer
- Renewable Energy
- Thermodynamics and Thermal Systems
- Thermo-Economic Analysis and Energy Policy
- Engineering Design
- Case Studies and Industrial Experiences in Engineering
- Design Creativity and Innovation in Engineering Design
- Design Education
- Design for “X” (Sustainability, Customization, Logistic, and other)
- Design Process, Methodology, Methods, and Tools
- Engineering Design + AI and Industry 4.0
- Product and Project Management
- Reliability and Maintainability
- Fluid Mechanics and Rheology
- Computational Fluid Dynamics
- Flow Induced Vibration
- Industrial Applications and Turbomachinery
- Instrumentation and Experiments
- Multi-phase Flow
- Rheology and Non-Newtonian Fluid Mechanics
- Theoretical and Analytical Modeling
- Fracture, Fatigue, and Structural Integrity
- Fatigue
- Fracture
- Pipelines and Pipes
- Pressure Vessels
- Structural Integrity
- Materials and Manufacturing Engineering
- Additive Manufacture
- Processes with Material Removal
- Manufacturing Management
- Materials Characterization and Processing
- Metallurgical Processes
- Metrology, Inspection, and Quality Control
- Tribology
- Union and Assembly Processes
- Mechatronics and Automation
- Artificial Intelligent Applications
- Assistive Technologies
- Computer Vision
- Control Systems
- Fluid Power Systems
- Industrial Informatics, Discrete and Hybrid Systems
- Robotics and Mechanisms
- Sensors and Actuators
- Nano and Microfluidic and Microsystems
- Heat and Mass Transfer in Micro and Nano scales
- MEMS, NEMS, and NOEMS
- Micro and Nanofabrication
- Micro and Nanofluidics
- Non-linear Phenomena
- Analytical Methods
- Numerical Methods
- Applications of Nonlinear Systems in Engineering
- Chaos and its Applications
- Complex Systems in Engineering
- Experimental Methods in Nonlinear Phenomena
- Identification of Nonlinear Systems
- Inverse Problems in Nonlinear Phenomena
- Nonlinear Mechanics
- Stochastic Methods for Nonlinear Systems
- Synchronization and Complex Networks
- Offshore and Petroleum Engineering
- Offshore and Petroleum Engineering
- Heating, Ventilation, Air-Conditioning, and Refrigeration
- Air-conditioning
- Heating
- Refrigeration
- Ventilation
- Smart Materials and Structures
- Active and Passive Structures
- Bioinspired Systems
- Magnetic Materials
- Non-linear Dynamics of Smart Systems
- Piezoelectric Materials
- Shape Memory Alloys
- Smart Systems
- Solid Mechanics
- Composite Materials and Structures
- Elasticity, Plasticity, Damage and Fracture Mechanics
- Fatigue and Failure Analyses
- Impact Engineering
- Nonlinear Analyses: Buckling, Post-Buckling, and Contact Analyses
- Numerical Methods: FEM, XFEM, GFEM, BEM, and other methods
- Optimization of Materials, Fluids, and Structures
- Structural Reliability Methods and Reliability-Based Design
- Structural Statics and Dynamics
- Viscoelasticity and Viscoplasticity
- Wave Propagation
- Uncertainty Quantification and Stochastic Modeling
- Bayesian, Fuzzy, and Interval Methods
- Probabilistic Modelling and Analysis, Simulation, and Soft Computing
- Risk Analysis and Risk Management
- Uncertainty Identification, Quantification, and Reduction
- Industrial Application of Uncertainty Quantification
