Finite Element Methods (FEM) (3 op)
Toteutuksen tunnus: TKSUE300-3001
Toteutuksen perustiedot
- Ilmoittautumisaika
-
02.08.2021 - 05.09.2021
Ilmoittautuminen toteutukselle on päättynyt.
- Ajoitus
-
06.09.2021 - 31.12.2021
Toteutus on päättynyt.
- Opintopistemäärä
- 3 op
- Lähiosuus
- 1 op
- Virtuaaliosuus
- 2 op
- Toteutustapa
- Monimuoto-opetus
- Yksikkö
- Teknologiayksikkö
- Toimipiste
- Pääkampus
- Opetuskielet
- englanti
- suomi
- Paikat
- 0 - 30
- Koulutus
- Konetekniikka (AMK)
- Opettajat
- Tomi Nieminen
- Vastuuopettaja
- Tomi Nieminen
- Ryhmät
-
TKN21VKKonetekniikka (AMK), vaihto-opiskelu/Exchange studies
-
ZJA21STAvoin AMK, tekniikka
-
TKN18SAKonetekniikka
- Opintojakso
- TKSUE300
Arviointiasteikko
0-5
Tavoitteet
The students understand the theoretical basis of the finite element method. They are able to conduct static FEM analysis on structures, interpret the results and draw conclusions.
EA-EN EUR-ACE Engineering analysis: Students are able to create a model of the structure which is appropriate for FEM analysis. They are also able to complete the analysis.
EA-ER EUR-ACE Engineering practice: Students are able to choose a correct method and element type for a structural analysis. They are also able to interpret the results and draw conclusions based on the results.
Sisältö
Theoretical basis of the finite element method: forming the stiffness matrix and solving the system of equations. Element types: truss, beam, shell and solid. Analysis types: static and modal analysis. Interpretation and sharpness of the results. Linear and non-linear analysis. Modeling assemblies and contact surfaces. Using a FEM-software.
Oppimateriaalit
Theory handouts + exercises
Support material: Hartmann, Katz: Structural Analysis with Finite Elements, 2nd Edition
Toteutuksen valinnaiset suoritustavat
Exercises and a final exam.
Opiskelijan ajankäyttö ja kuormitus
Lectures and exercises 40 h, independent work 41 h. Total 81 h.
Arviointikriteerit, tyydyttävä (1)
Excellent (5): The student masters the topics of the course, and he is able to apply them innovatively in challenging engineering applications.
Very good (4): The student masters the essential knowledge of the course, and he is able to apply his skills to usual engineering problems.
Good (3): The student masters the basic principles of the course, and he is able to solve basic engineering problems.
Satisfactory (2): The student is familiar with the basic knowledge and terminology of course, but he has some problems with applying the knowledge. He can nevertheless solve simple engineering problems.
Adequate (1): The student is familiar with the basic knowledge and terminology of the course, but he has significant problems with applications.
Arviointikriteerit, hyvä (3)
Good (3): The student masters the basic principles of the course, and he is able to solve basic engineering problems.
Very good (4): The student masters the essential knowledge of the course, and he is able to apply his skills to usual engineering problems.
Arviointikriteerit, kiitettävä (5)
Excellent (5): The student masters the topics of the course, and he is able to apply them innovatively in challenging engineering applications.
Esitietovaatimukset
The technical beam theory: stress and deformation caused by the normal and shear force and the bending moment.
Lisätiedot
Avoin AMK 15 paikkaa