Lectures:
1st Processing of input data for modeling the structure of construction materials
2nd Models of some selected structures of composite materials and prediction their properties
3rd Models of local micromechanisms of damage initiation cleavage and ductile Crack
4th Models of voltage-mechanical deformation behavior makroskopiských properties
5th Models of viscoelastic behavior of polymers
6th Modeling time-dependent degradation processes of fatigue and creep
damage
7th Simulation of combinatorial effects of thermal fatigue and creep
8th Models of contact fatigue of functional contact surfaces
9th Statistical methods for assessing material limit states
10th The basic concept of rating the size factor
11th Numerical models of fracture behavior of structural materials
12th Simulation of damage components degradation processes
13th Practical application of fracture mechanics and residual life estimates components
1st Processing of input data for modeling the structure of construction materials
2nd Models of some selected structures of composite materials and prediction their properties
3rd Models of local micromechanisms of damage initiation cleavage and ductile Crack
4th Models of voltage-mechanical deformation behavior makroskopiských properties
5th Models of viscoelastic behavior of polymers
6th Modeling time-dependent degradation processes of fatigue and creep
damage
7th Simulation of combinatorial effects of thermal fatigue and creep
8th Models of contact fatigue of functional contact surfaces
9th Statistical methods for assessing material limit states
10th The basic concept of rating the size factor
11th Numerical models of fracture behavior of structural materials
12th Simulation of damage components degradation processes
13th Practical application of fracture mechanics and residual life estimates components