Part 1 Mechanical models: rolling; impact and shock; dry friction; adhesion; unilateral contact; large deformations; thermics; inelastic materials; shape optimization; inverse problems; thermodynamic problems. Part 2 Numerical aspects: singular integral equation; finite difference method; mathematical programming; fixed point, relaxation, Newton and other relaed algorithms. Part 3 Engineering applications: fretting fatigue; fracture mechanics; crashworthiness; biomechanics; forging and extrusion; composite materials.
