Finite element methods in civil engineering
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Paikka:
Aihealue:
Opintojen muoto:
Palveluntarjoaja:
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Learning outcomes
1. Recognising the possibilities, advantages and risks of applying advanced computational methods and simulation tools in engineering problems
2. Understanding of the theoretical foundations of the advanced finite element methods (FEM) applied in civil engineering
3. Understanding of the main assumptions and features of specialized structural finite elements and finite element analysis types
4. Ability to apply the most relevant advanced finite element methods in civil engineering by implementing well-structured simple programs for solving basic engineering problems
5. Ability to critically utilize advanced finite element software tools for the most typical civil engineering problems
Course content
Week 1:
- Abstract formulation and accuracy of finite element methods
- Finite element methods for Timoshenko beams
Week 2:
- Finite element methods for Kirchhoff plates
- Finite element methods for Reissner–Mindlin plates
Week 3:
- Finite element methods for shells
Week 4:
- Finite element methods for time-dependent problems
Week 5:
- Nonlinearities in finite element simulations
Week 6:
- Finite element methods for free vibrations
- Finite element methods for buckling
Week 7:
- Exam
(The actual order of some of the weeks 1–6 may vary.)
