In demanding and exceptionally demanding structural design:
The student is able to apply
- use of stiffening methods in different frame systems and cases
- good properties of the stiffening system
- fire measurement methods
- methods of preventing continuous collapse
The student is able to take into account
- the impact of buckling support on the whole
- the impact of the torsional support on the whole
- the impact of the flexibility of the stiffening system
- impact of building height on stiffening
- impact of building length on stiffening
- impact of horizontal displacements on stiffening
- the impact of the location of the stiffeners on the stiffening
The student is able to calculate and examine
- dimensioning of the NR lattice tendon support
- dimensioning of the torsion support of the beam
- stiffening rigid wall dimensioning
- dimensioning of the stiffening beam intermediate base
- dimensioning of the stiffening log wall
- dimensioning of NR truss top stiffening
- dimensioning of the stiffening of a wooden high-rise building
- dimensioning of the stiffening of a wooden hall building
The student is able to identify
- internal and external forces of the stiffening system
- mechanical operation of the stiffening system
- the mechanical operation of the stiffening system as a whole
- weaknesses and strengths of the stiffening system
- effect of stiffening on acoustics
- the effect of stiffening on the vibration of the midsole