# Bekim Berisha: Catalogue data in Autumn Semester 2017

 Name Dr. Bekim Berisha Address Institut für virtuelle ProduktionETH Zürich, PFA G 17Technoparkstrasse 18005 ZürichSWITZERLAND Telephone +41 44 632 78 46 E-mail berisha@ivp.mavt.ethz.ch Department Mechanical and Process Engineering Relationship Lecturer

NumberTitleECTSHoursLecturers
151-0021-00LEngineering Tool II: Introduction to MATLAB  The Engineering Tool course is for MAVT Bachelor's students only; Participation in this Engineering Tool course is compulsory for all students in the 3rd semester.
0.4 credits1KB. Berisha
AbstractIntroduction to MATLAB; vectors and matrices; graphics in MATLAB; calculus, differential equations; programming with MATLAB; data analysis and statistics; interpolation and polynomials. Excercises with solutions: using MATLAB commands, technical applications.
ObjectiveIntroduction to numerical calculations with MATLAB.
ContentIntroduction to MATLAB; vectors and matrices; graphics in MATLAB; calculus, differential equations; programming with MATLAB; data analysis and statistics; interpolation and polynomials. Excercises with solutions: using MATLAB commands, technical applications.
Lecture notesCourse material:
http://www.ivp.ethz.ch/studium/vorlesungen/ingenieur-tool-ii--numerisches-rechnen.html
Prerequisites / NoticeDer Kurs findet in einem Hörsaal statt und es stehen keine Rechner zur Verfügung. Es wird empfohlen, dass pro zwei Studierenden mindestens ein Laptop mit installiertem Matlab mitgebracht wird.

Installation Matlab:

- es funktionieren alle Versionen
- folgende Toolboxes/Features müssen installiert sein: Simulink (wird für RT1 benutzt), Curve Fitting Toolbox, Optimization Toolbox, Symbolic Toolbox, Global Optimization Toolbox
151-0833-00LPrinciples of Nonlinear Finite-Element-Methods 5 credits2V + 2UN. Manopulo, B. Berisha
AbstractMost problems in engineering are of nonlinear nature. The nonlinearities are caused basically due to the nonlinear material behavior, contact conditions and instability of structures. The principles of the nonlinear Finite-Element-Method (FEM) will be introduced in the scope of this lecture for treating such problems.
ObjectiveThe goal of the lecture is to provide the students with the fundamentals of the non linear Finite Element Method (FEM). The lecture focuses on the principles of the nonlinear Finite-Element-Method based on explicit and implicit formulations. Typical applications of the nonlinear Finite-Element-Methods are simulations of:

- Crash
- Collapse of structures
- Materials in Biomechanics (soft materials)
- General forming processes

Special attention will be paid to the modeling of the nonlinear material behavior, thermo-mechanical processes and processes with large plastic deformations. The ability to independently create a virtual model which describes the complex non linear systems will be acquired through accompanying exercises. These will include the Matlab programming of important model components such as constitutive equations
Content- Fundamentals of continuum mechanics to characterize large plastic deformations
- Elasto-plastic material models
- Updated-Lagrange (UL), Euler and combined Euler-Lagrange (ALE) approaches
- FEM implementation of constitutive equations
- Element formulations
- Implicit and explicit FEM methods
- FEM formulations of coupled thermo-mechanical problems
- Modeling of tool contact and the influence of friction
- Solvers and convergence
- Modeling of crack propagation