Main Topics

Main Topics

  • Computational Mechanics: FEM, BEM, MD, DFT, Micromechanics, Monte Carlo, and Hybrid Methods, Optimum Design Techniques, Noise and Vibration, Structural Dynamics.
  • Experimental Mechanics: Condition Monitoring, Destructive and Nondestructive Testing, Optical Techniques, Damage Mechanics and Assessment, Prototyping and Full-Scale Testing, Vibration Monitoring, Residual Stresses, Laser Treatment.
  • Fatigue and Fracture Mechanics: Fatigue, Corrosion, Stress Corrosion Cracking, Fatigue Creep Interaction, Environmentally Assisted Failures, Brittle Fracture, Buckling, Impact Failure, Failure of Nanostructured Materials.
  • Composite and Cellular Materials: Fiber, Matrices and Interfaces, Polymer/Ceramic/Carbon/Metal Composites, Multi-functional Composites, Smart Structures and Materials, Processing/Fabrication/Recycling, Durability/Damage/Fracture, Health Monitoring and Reparability, nanocomposites.
  • Nanoengineering and Nanomaterials: NEMS and MEMS Technologies, Nanocomposites, Nanodevices, Diagnostics and Control, Nanosensors, Molecular Devices, Applications of Nanocomposites in Industry.
  • Tribology and Surface Engineering: Lubrication, lubricants and additives, Surface coatings and treatments, Gears and bearings, Micro-pitting, pitting, scuffing and wear, Surface integrity, Adhesive bonding, superhydrophobicity.
  • Mechanical Design and Prototyping: Mechanical Design, Product Development, Additive Manufacturing and Prototyping, Design for Manufacturing, Eco-design, Conversion Technologies.
  • Advanced Metal Forming and Metal Cutting: Advanced Forming, Cutting, Casting, micromachining, automation, sustainability, Virtual Manufacturing, reliability engineering.
  • Biomechanics: Mechanics and Design of Prostheses, Biomaterials and Biocompatibility, Stress Monitoring, Dental implants Orthopedic Biomechanics, Sports and Rehabilitation Biomechanics, Biofluid Mechanics, Medical Devices, Case Studies.
  • Impact and Crashworthiness: Modeling, Testing Techniques, Measurement in Dynamics, Earthquake Engineering, Crash-worthiness, Ballistic Studies, Energetic Materials, Impact Behaviour of Materials, Case Studies.
  • Energy and Thermo-Fluid Systems: Design of Advanced Energy Systems, Plasma and Plasma Coatings, Heat and Mass Transfer in Design, Experimental Fluid Dynamics, FSI, Interfacial Dynamics, Large Scale Eddy and Turbulence Analysis.
  • Manufacturing Engineering: Systems Engineering, Manufacturing Engineering, Safety Engineering, Sustainable Technologies and Processes, Risk Assessment, Product Reliability, Operations Management, Case Studies.
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