Symposia

27th International Congress of Mechanical Engineering

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

 

 

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