Morphological and functional basis

Module BIOMECHANICS

Provide the basics of biomechanics to understand the actions of external forces and internal forces on the musculo-skeletal structure.

Acquire a basic grounding about the biomechanical properties of materials and biological tissues.

Frontal lessons.

Forces and moments. Forces composition. Biomechanical applications.

Equilibrium conditions. Constraint reactions. Biomechanical applications.

Internal forces. Shear and moment digrams. Biomechanical applications.

Linear elasticity. Hooke’s law. Elastic properties of the materials. Stress and strain. Biomechanical applications.

Tensile-compressive loading, shear loading, flexural loading, torsional loading. Normal and tangential stresses produced by the various loading forces. Biomechanical applications.

Cyclical stresses. Fatigue of the materials.

Viscoelastic properties of the materials. Wear.

Cartilage lubrication.

Respiratory biomechanics.

1. R. Pietrabissa: Biomateriali per protesi ed organi artificiali. Patron. Bologna, 1996.

2. B.F. LeVeau: Biomeccanica del movimento umano. Verduci Ed., 1993.

3. V. Pirola. Cinesiologia. Il movimento umano. II edizione. Edi-Ermes 2017.

4. Course notes.

Monopodalic equilibrium with and without support.

Russel traction.

Wear and friction. Cartilage lubrication.

Fatigue of materials.

Simple viscoelastic models.

Forces and deformations. Elementary stresses and deformations.