• Mechanics of deformable solids (elasticity, plasticity, viscoelasticity, higher‐order theories, constitutive theories, contact mechanics)
• Structural mechanics (beams, frames, plates, shells)
• Structural dynamics and stability
• Fluid mechanics (fluid dynamics, hydraulics, aerodynamics)
• Theoretical mechanics and mathematical methods
• Computational mechanics and numerical methods
• Experimental mechanics and measurements
• Geomechanics, Biomechanics
• Dynamics and wave propagation
• Fracture, damage and defects in solids
• Micromechanics and nanotechnology
• Mechanics of materials (composites, polymers, ceramics, geomaterials, smart materials)


  fluidmechanics              structuralmechanics            spectrafem