Finite Element Methods (FEM)Laajuus (3 cr)
Code: TKSUE300
Credits
3 op
Teaching language
- English
Responsible person
- Tomi Nieminen,
Objective
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.
Content
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.
Qualifications
The technical beam theory: stress and deformation caused by the normal and shear force and the bending moment.
Assessment criteria, satisfactory (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.
Assessment criteria, good (3)
Good (3): The student masters the basic principles of the finite element method, and he is able to solve basic engineering problems.
Very good (4): The student masters the essential knowledge of the finite element method, and he is able to apply his skills to usual engineering problems.
Assessment criteria, excellent (5)
Excellent (5): The student masters the theory of the finite element method, and he is able to apply it innovatively in challenging engineering applications.
Enrollment
01.08.2022 - 25.08.2022
Timing
29.08.2022 - 31.12.2022
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
Teknologiayksikkö
Campus
Pääkampus
Teaching languages
- English
Seats
0 - 30
Degree programmes
- Konetekniikka (AMK)
Teachers
- Tomi Nieminen
Teacher in charge
Tomi Nieminen
Groups
-
TKN19SAKonetekniikka A
-
TKN22VKKonetekniikka (AMK), vaihto-opiskelu/Exchange studies
Objective
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.
Content
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.
Oppimateriaali ja suositeltava kirjallisuus
Theory handouts + exercises
Support material: Hartmann, Katz: Structural Analysis with Finite Elements, 2nd Edition
Vaihtoehtoiset suoritustavat
Exercises and a final exam.
Student workload
Virtual study and independent work 80 h.
Further information
Open AMK 15 places
Evaluation scale
0-5
Arviointikriteerit, tyydyttävä (1-2)
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 (3-4)
Good (3): The student masters the basic principles of the finite element method, and he is able to solve basic engineering problems.
Very good (4): The student masters the essential knowledge of the finite element method, and he is able to apply his skills to usual engineering problems.
Assessment criteria, excellent (5)
Excellent (5): The student masters the theory of the finite element method, and he is able to apply it innovatively in challenging engineering applications.
Qualifications
The technical beam theory: stress and deformation caused by the normal and shear force and the bending moment.