Module Handbook

  • Dynamischer Default-Fachbereich geändert auf MV

Notes on the module handbook of the department Mechanical and Process Engineering

Die hier dargestellten veröffentlichten Studiengang-, Modul- und Kursdaten des Fachbereichs Maschinenbau und Verfahrenstechnik ersetzen die Modulbeschreibungen im KIS und wuden mit Ausnahme folgender Studiengänge am 28.10.2020, bzw. am 13.01.2021 verabschiedet.


Module MV-CPE-M192-M-7

Structural Analysis and Modeling (M, 5.0 LP)

Module Identification

Module Number Module Name CP (Effort)
MV-CPE-M192-M-7 Structural Analysis and Modeling 5.0 CP (150 h)
MV-ASM-M192-M-7 Structural Analysis and Modeling 5.0 CP (150 h)
Hint concerning Module Number MV-ASM-M192-M-7:
Number in examination regulations.


CP, Effort 5.0 CP = 150 h
Position of the semester 1 Sem. in WiSe/SuSe
Level [7] Master (Advanced)
Language [DE/EN] German or English as required
Module Manager
Area of study [MV-CPE] Computational Physics in Engineering
Reference course of study [MV-88.B78-SG] M.Sc. Production Engineering in Mechanical Engineering
Livecycle-State [NORM] Active


In the winter semester the lecture is offered in German, in the summer semester in English!


Type/SWS Course Number Title Choice in
Presence-Time /
SL SL is
required for exa.
PL CP Sem.
2V+2U MV-CPE-86850-K-7
Structural Analysis and Modeling
WP 56 h 94 h - - PL1 5.0 WiSe/SuSe
  • About [MV-CPE-86850-K-7]: Title: "Structural Analysis and Modeling"; Presence-Time: 56 h; Self-Study: 94 h

Examination achievement PL1

  • Form of examination: written or oral examination
  • Examination Frequency: each semester
  • Examination number: 11052 ("Structural Analysis and Modeling")
    Oral (30-45 min.) or written (75-105 min.) examination.

Evaluation of grades

The grade of the module examination is also the module grade.


The approach to construction analysis and modeling will be explained and demonstrated with practical examples. Contents of the lecture are furthermore:

Differences of simulation methods, approaches of material description, nonlinearities of machine elements, contact description, friction phenomena, wear mechanisms and optimization methods.

In the exercise the contents are deepened and illustrated by smaller simulations in Matlab.

Table of contents

  • Fundamentals of design analysis and modeling
  • Overview of numerical methods and modeling methods
  • Presentation of different rheological material models
  • Analysis of nonlinearities
  • Contact problems
  • Friction and wear problems
  • Introduction to optimization

Matlab exercises for the preceding topics

Competencies / intended learning achievements

With the successful conclusion of this lecture, the students are able
  • to call the different steps of modelling in the correct order and to give examples
  • to distinguish and compare between different simulation methods, to name advantages and disadvantages of the method and to itemize typical applications
  • to distinguish basic concepts of rheological material models, to deduce the behavior of combined models and to call examples for practical applications
  • to explain differences of linear and non-linear dynamical systems on the example of a linear and a Duffing-oscillator, and to describe the numerical method to describe both systems
  • to explain the impact of system parameters on the oscillations of a linear systems
  • to describe mechanisms of friction and transfer the knowledge to practical applications
  • to explain differences of adhesion models and select an appropriate model for a practical application
  • to describe mechanisms of wear and explain the wear process related to wear measurements


  • Bungartz, H-J.; Zimmer S.; Buchholz, M.; Pflüger, D.: Modeling and Simulation - An Application-Oriented Introduction. Springer 2014
  • Czichos, H.; Habig, K-H.: Tribologie-Handbuch - Tribometrie, Tribomaterialien, Tribotechnik, Springer 2015
  • Pahl, G.; W. Beitz: Engineering Design - A Systematic Approach. Springer 2007
  • Popov, V.L.: Contact Mechanics and Friction, Springer 2010
  • Arnell, R. D. u. a.: Tribology – Principles and Design Applications. Macmillan Ed. LTD 1991

Requirements for attendance of the module (informal)

Required knowledge, skills and abilities from design theory or similar modules as well as:


Requirements for attendance of the module (formal)


References to Module / Module Number [MV-ASM-M192-M-7]

Module-Pool Name
[GS-CVT-ME-2022-E-MPOOL-6] Catalog Electives Mechanical Engineering 2022
[GS-CVT-ME-E-MPOOL-6] Catalog Electives Mechanical Engineering

References to Module / Module Number [MV-CPE-M192-M-7]

Module-Pool Name
[MV-ALLG-2022-MPOOL-6] Wahlpflichtmodule Master allgemein 2022
[MV-ALL-MPOOL-6] Wahlpflichtmodule allgemein
[MV-CE-2022-MPOOL-6] Wahlpflichtmodule M.Sc. Computational Engineering 2022
[MV-CE-MPOOL-6] Wahlpflichtmodule Computational Engineering
[MV-MB-INF-2022-MPOOL-6] Wahlpflichtmodule M.Sc. Maschinenbau mit angewandter Informatik 2022
[MV-MBINFO-MPOOL-6] Wahlpflichtmodule Maschinenbau mit angewandter Informatik
[MV-PE-2022-MPOOL-6] Wahlpflichtmodule M.Sc. Produktentwicklung 2022
[MV-PE-MPOOL-6] Wahlpflichtmodule Produktentwicklung im Maschinenbau