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