FEM in Mechanics

FEM in Mechanics
330-0514/01
čeština FEM in Mechanics
330-0514/02
čeština

Anotace

1. Diskretization of mechanical structures, variable calculus in mechanics, Ritz
method
2. Deformation variant of finite element method
3. One dimension stright element, shape function at bending, stiffness matrix, load vector,
4. Global stiffness matrix and global load vector, optimisation of band matrix, basic matrix equation of FEM and their solution
5. Transformation matrixes, plane and space frame structures
6. Plane and Space elements
7. Dynamic problems and FEM, mass matrix
8. Eigenfrequencies and eigenshapes of vibrations, iterations method of solutions
9. Step by steps methods; modal analysis
10.General problem statement of FEM

Povinná literatura

Cook, R.D. et al. Concepts and Applications of Finite Element Analysis. J.
Wiley&Sons,2002,pp.719,ISBN 0-471-35605-0

Doporučená literatura

http://www.mece.ualberta.ca/tutorials/ansys/ ( University of Alberta, Canada)

zpět na vyhledávání

Language of instruction	čeština, čeština
Code	330-0514
Abbreviation	MKPVM
Course title	FEM in Mechanics
Coordinating department	Department of Applied Mechanics
Course coordinator	doc. Ing. Zdeněk Poruba, Ph.D.