1 / Repetition of basic knowledge of the mechanics of materials
2 / Shear beam (Žuravski law), Torsion of thin-walled profiles
3 / Broken beam, slightly curved beams, frames
4 / Thin-walled vessels - membrane theory
5 / Thin plates - rotary, square
6 / Thick-walled pressure vessels
7 / Multi-layered thick-walled pressure vessels, pressed joints, rotating discs
8 / Dynamic loading (technically) - tension, bending, torsion
9 / Vibrations of beams, natural frequency and shapes
10 / Limiting states (L.S.) - classification of limit states, constructional notches
11 / L.S. Fatigue and Fracture Mech. 1 - K_I, Linear slash, Crack propagation (Paris)
12 / L.S. Fatigue and Fracture Mech. 2 - calculation for unlimited life
13 / L.S. Fatigue and Fracture Mech. 3 - Timed Strength (S-N)
14 / Introduction to Experimental Elasticity (Issues of Measurement and Evaluation of Experiment, Basic Methods)
2 / Shear beam (Žuravski law), Torsion of thin-walled profiles
3 / Broken beam, slightly curved beams, frames
4 / Thin-walled vessels - membrane theory
5 / Thin plates - rotary, square
6 / Thick-walled pressure vessels
7 / Multi-layered thick-walled pressure vessels, pressed joints, rotating discs
8 / Dynamic loading (technically) - tension, bending, torsion
9 / Vibrations of beams, natural frequency and shapes
10 / Limiting states (L.S.) - classification of limit states, constructional notches
11 / L.S. Fatigue and Fracture Mech. 1 - K_I, Linear slash, Crack propagation (Paris)
12 / L.S. Fatigue and Fracture Mech. 2 - calculation for unlimited life
13 / L.S. Fatigue and Fracture Mech. 3 - Timed Strength (S-N)
14 / Introduction to Experimental Elasticity (Issues of Measurement and Evaluation of Experiment, Basic Methods)