Structural analysis and FEM (5 op)
Toteutuksen tunnus: TX00DP15-3002
Toteutuksen perustiedot
Ilmoittautumisaika
02.05.2019 - 01.09.2019
Ajoitus
28.08.2019 - 09.12.2019
Opintopistemäärä
5 op
Toteutustapa
Lähiopetus
Yksikkö
Ajoneuvo- ja konetekniikka
Toimipiste
Leiritie 1
Opetuskielet
- Englanti
Paikat
0 - 40
Koulutus
- Konetekniikan tutkinto-ohjelma
Opettaja
- Jyrki Kullaa
Vastuuopettaja
Jyrki Kullaa
Tavoitteet
On completion of the course, the student will be familiar with the basics of the finite element method, and is able to perform linear static, dynamic, and buckling analyses using commercial finite element software.
Sisältö
Matrix calculus
Introduction to the finite element method
Structural elements
Solving for displacements, computing reaction forces and element forces
Usage of a finite element software
Arviointiasteikko
0-5
Arviointikriteerit, tyydyttävä (1)
Evaluation criteria - satisfactory (1-2)
The student knows the basics of matrix algebra.
The student can discretize a truss or a frame structure, form the element stiffness matrices, assemble the structure’s stiffness matrix, and solve for the unknown nodal displacements.
The student can compute the reactions and element internal forces and draw internal force diagrams.
The student can run linear static analyses using FE software and an example.
Arviointikriteerit, hyvä (3)
Evaluation criteria - good (3-4)
The student can discretize a truss or a frame structure, can form the element stiffness matrices, assemble the structure’s stiffness matrix, and solve for the unknown nodal displacements.
The student can compute the reactions and element internal forces and draw internal force diagrams.
The student can run linear static and buckling analyses using commercial FE software.
Arviointikriteerit, kiitettävä (5)
Evaluation criteria - excellent (5)
The student knows the principles of the finite element method.
The student can discretize a truss or a frame structure, can form the element stiffness matrices, assemble the structure’s stiffness matrix, and solve for the unknown nodal displacements.
The student can compute the reactions and element internal forces and draw internal force diagrams.
The student can independently run linear static, dynamic, and buckling analyses using commercial FE software, interpret the results and assess their validity.