Robot Structural Analysis jätkukursus
Kahepäevane jätkukursus on mõeldud insnerile, kes on läbinud algkursuse ja töötanud Robot Structural Analysisega.
Kursuse keel on inglise keel ja juhenda Robobat Polska insener.
Sihtrühm
Kahepäevane jätkukursus on mõeldud insnerile, kes on läbinud algkursuse ja töötanud Robot Structural Analysisega ning soovib teostada mitte-lineaarseid analüüse ja dimensioneerida keerukamaid konstruktsioone.
Kursuse kava
Day 1:
1. Definition and modification of a 3D bar structure.
- navigating in 3D
- creating model geometry
- definition of claddings and curtain walls
- applying the loads
2. Advanced attributes of a structure model.
- truss bars and ‘tension/compression only’ bars
- definition of rigid links
- definition of offsets
- brackets and its influence on the design of steel sections
- definition of compatible nodes
3. Static analysis and results
- possibilities of model generation
- structure verification
- results in graphical and table form
4. Solving the problems during static analysis
- instabilities
- separate structure and isolated nodes warnings
5. Steel elements verification (acc. to a selected code – i.e. EN-1993-1-1)
- definition of code parameters
- verification of complex sections
- detailed analysis
- optimization of standard and parameterized sections
6. Steel connections verification (acc. to a selected code – i.e. EN-1993-1-8).
- some examples of steel connection verifications
- rigidity analysis
7. Code combinations (acc. to a selected code – i.e. EN-1990)
- possibilities of generating automatic combinations
- modifications of code regulation
- code combinations in non-linear analysis
8. Moving loads
- definition of vehicles
- moving load case parameters
- results analysis
- moving loads in manual and code combinations
Day 2:
1. Definition of a multistory RC building (‘shell’ module)
- geometry (walls, columns, slabs)
- advanced mesh properties
- definition of planar loads
2. Static analysis and results
- structure verification
- results in graphical and table form (maps, panel cuts)
- post-processing options of displaying the results (reduction over supports, internal forces for calculating the reinforcement)
3. Planar RC objects design (acc. to a selected code – i.e. EN-1992-1-1).
- plate and shell required reinforcement
- plate provided reinforcement
- punching analysis
4. Various topics related to shell model definition.
- solving the problems with incoherent mesh
- influence of the plate mesh size on the results over columns
- reduction over supports (pros and cons)
- consequences of using offsets in RC beam design
5. Definition of a RC container (‘shell’ module)
- parameters of foundations elasticity
- local co-ordinate systems on the objects
- hydrostatic pressure and soli pressure loads
- analyzing the results
- required reinforcement in slab foundation
6. Various topics related to Shell modeling.
- creating an axisymmetric structure (silo)
- arc shaped walls
7. Definition of user’s sections.
- section definition module
- calculating sections properties
- import of section shape from DXF
8. Some topics on non-linear analysis in ARSA.
- non-linear elements (tension/compression only bars, non-lin. releases and supports)
- types of non-linear analysis (second order analysis P-delta)
- non-linear analysis parameters