Call for Abstract

2nd International Conference and Exhibition on Mechanical & Aerospace Engineering, will be organized around the theme “Surging into the Future of Mechanical & Aerospace Engineering”

Mech Aero 2014 is comprised of 15 tracks and 105 sessions designed to offer comprehensive sessions that address current issues in Mech Aero 2014.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

  • Track 1-1Fluid- solid mechanics
  • Track 1-2Knots and links in fluid mechanics
  • Track 1-3Stress and strain in fluid mechanics
  • Track 1-4Critical fluid connective flow
  • Track 1-5Navier-strokes fluid connective flow
  • Track 1-6Thermo fluid mechanics
  • Track 1-7Computational fluid dynamics
  • Track 1-8Incompressible fluids
  • Track 1-9Fluid dynamics
  • Track 1-10Biomedical engineering in fluid mechanics
  • Track 2-1Aero-acoustics
  • Track 2-2Modelling and design of aero-engines and aero engine fans
  • Track 2-3Aero- engine combustors
  • Track 2-4Unsteady aerodynamics
  • Track 2-5Aero heating
  • Track 2-6Numerical investigations in aerodynamics
  • Track 2-7Projectile aerodynamics
  • Track 2-8Aero-elastic modelling
  • Track 2-9Aero dynamic heating in aerospace vehicles
  • Track 3-1Remotely controlled airship design
  • Track 3-2Bio inspired and bio-mimetic micro flyers
  • Track 3-3Trajectory optimization for stratospheric airship
  • Track 3-4Electric aircraft concept for unmanned air vehicles and military aviation
  • Track 3-5Design and modelling of solar-powered aircrafts
  • Track 3-6Hydrogen powered aircrafts- future technology
  • Track 4-1Integrated aircraft and underwater navigation
  • Track 4-2Satellite based and ground based air navigation
  • Track 4-3Navigation of land vehicles in battle field
  • Track 4-4Pseudolites
  • Track 4-5Orbit designs for remote sensing satellites
  • Track 4-6GPS-based relative navigation of satellites
  • Track 4-7Fault detection method for aircraft navigation system
  • Track 4-8Control, navigation and collision avoidance for unmanned aerial vehicle
  • Track 5-1Design of transport aircraft powered by fuel cells
  • Track 5-2Aviations emission mitigation policies
  • Track 5-3Artificial intelligence in aircraft design
  • Track 5-4Structural design and optimization of tiltrator aircraft
  • Track 5-5Aircraft vulnerability modelling and computation methods
  • Track 5-6Structural design and modelling of supersonic aircrafts
  • Track 6-1Engine integration of light sport aircraft
  • Track 6-2Novel aero engine concepts
  • Track 6-3Rotor speed control for integrated helicopter engine
  • Track 6-4Design and modelling of military helicopters
  • Track 6-5Helicopter auto-pilot design
  • Track 6-6Engine integration of light sport aircraft
  • Track 6-7Novel aero engine concepts
  • Track 6-8Rotor speed control for integrated helicopter engine
  • Track 6-9Design and modelling of military helicopters
  • Track 7-1Bio-inspired motion for wheeled mobile robots
  • Track 7-2Potential use of robots on extra-terrestrial bodies
  • Track 7-3Pneumatic artificial muscles for robotic hand
  • Track 7-4Aero-space robotics and challenges
  • Track 7-5Military robots and drones
  • Track 8-1Rocket motor powered vehicle for sub-orbital flight
  • Track 8-2Design and development of hybrid rocket motors
  • Track 8-3Solid rocket propellants
  • Track 8-4Liquid propellant rocket engines
  • Track 8-5Manned space transportation vehicles
  • Track 8-6High thrust liquid rocket engine fuel turbo pump
  • Track 9-1Space mission design
  • Track 9-2Bio-regenerative life support systems
  • Track 9-3Space propulsion
  • Track 10-1Biomaterial and nano technology
  • Track 10-2Bio-medical applications
  • Track 10-3Environmental fluid dynamics
  • Track 10-4Bio-medical micro devices
  • Track 10-5Micro engineering
  • Track 10-6Development of biomechanics for human anatomy
  • Track 10-7Biomedical engineering
  • Track 11-1Advanced material processing and properties
  • Track 11-2Nano mechanics and multi-physics
  • Track 11-3Synthesis and material characterization
  • Track 11-4Multiscale material design
  • Track 11-5Nano-material processing
  • Track 11-6Material flow and combustion
  • Track 11-7Emission, air quality and nano particle synthesis
  • Track 12-1Industrial plasma processing
  • Track 12-2Energy dependent processing
  • Track 12-3Energy savings in thermal processing
  • Track 12-4Radiation processing
  • Track 12-5Bio-energy production
  • Track 12-6Energy management
  • Track 12-7Energy system optimization
  • Track 12-8Laser processing due to energy coupling
  • Track 12-9Acoustic energy
  • Track 13-1Solid mechanics
  • Track 13-2Energy and wave propagation in solids
  • Track 13-3Advanced acoustics
  • Track 13-4Astrodynamics
  • Track 13-5Air traffic control systems
  • Track 14-1Biomedical engineering in fluid mechanics
  • Track 14-2Heat transfer in fire and combustion
  • Track 14-3Nuclear energy
  • Track 14-4Heat transfer in multiphase systems
  • Track 14-5Transport phenomena in materials processing and manufacturing
  • Track 14-6Heat transfer in electronic equipment
  • Track 14-7Heat and mass transfer in biotechnology
  • Track 15-1Communications satellite applications
  • Track 15-2Remote sensing satellite applications
  • Track 15-3Navigation satellite applications
  • Track 15-4Satellite and launcher technology
  • Track 15-5Ultra wideband technologies for space applications
  • Track 15-6Science & astronomy
  • Track 15-7Astrobiology
  • Track 15-8Optimization applications in mechanical & aerospace engineering