• Analytical mechanics
  • Biomechanics
  • Celestial Mechanics
  • Computational mechanics and numerical methods
  • Contact mechanics
  • Dynamics of rigid and deformable bodies
  • General dynamics and chaos
  • Experimental mechanics and measurements
  • Fluid mechanics (fluid dynamics, hydraulics, aerodynamics)
  • Fracture, damage and defects in solids
  • Geomechanics
  • Mathematical methods in mechanics
  • Mechanics of advanced materials (composites, polymers, ceramics, geomaterials, smart materials, cellular materials)
  • Mechanics of solids (elasticity, plasticity, viscoelasticity, higher-order theories, constitutive theories)
  • Micromechanics of materials
  • Nanomechanics and applications
  • Structural dynamics and stability
  • Structural mechanics (beams, frames, plates, shells)
  • Theoretical mechanics
  • Wave propagation and acoustics