FINITE ELEMENT METHOD II
Autumn 2009
Dr Grzegorz Krzesiński, room 35, tel. 222345071
Lectures (15h):
Error estimation and adaptive meshing.
Steady state heat flow and thermal stresses.
Introduction to structural dynamics, free vibrations.
Nonlinear problems in mechanics of structures - basic numerical techniques.
Buckling of elastic structures, critical load
Parametric modelling and design optimization
Computer lab (15h):
Modeling simple problems of: thermal stresses, contact mechanics, plasticity and residual stresses, free vibrations, buckling of shell
structure, parametric modeling and shape optimization
Objective: To supply the knowledge and skills required for applications of the method in typical problems of mechanics of
structures. After completing the course the students will be able to use FE models in different typical applications to solve problems
of thermal stresses, dynamic of structures and nonlinear problems of stress analysis
Assessment method: Assessment based on the final test and results of computer lab work.
Bibliography:
[1] Huebner K. H., Dewhirst D. L., Smith D.E., Byrom T. G.: The finite element method for engineers, J. Wiley & Sons, Inc., 2001.
[2] Zagrajek T., Krzesinski G., Marek P., MES w mechanice konstrukcji. Ćwiczenia z zastosowaniem programu ANSYS, Of.Wyd. PW 2005
[3] Bijak-Żochowski M., Jaworski A., Krzesiński G., Zagrajek T.: Mechanika Materiałów i Konstrukcji, Tom 2, Warszawa, Oficyna
Wydawnicza PW, 2005
[4] Saeed Moaveni: Finite Element Analysis. Theory and Application with ANSYS, Paerson Ed. 2003
[5] Zienkiewicz O.C., Taylor R.: The Finite Element Method.- different publishers and editions
[6] Instructions provided for the problems modeled in computer lab