1 10.07.2014 KIT – Universität des Landes Baden-Württemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft www.kit.edu
IPEK – Institute of Product Engineering
Modellbildungmodelling
CAE-Workshop at IPEK CAE in education Examples and experiences
2 10.07.2014
Motivation Important skills for personnel manager
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Source: WirtschaftsWoche June, 23rd 2014 / Management & Erfolg Titel: Ran ans Leben. Studieren mit Job-Garantie. Deutschlands beste Unis - aus der Sicht der Personalchefs
These Skills are mediated in the CAE workshops
3 10.07.2014
Mediation of crucial practical skills in the domain of construction and optimization which are substantial for engineers today
Learn to handle common CAE tools Prepare students for computational tasks
Modelling and abstraction Generating simulation modells Interpreting results Present and defend results
Acquisition of personal for the institute (thesis, student assistants, academic trainees etc.)
Objective of the CAE workshop
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
4 10.07.2014
Main topics of the CAE-Workshops overview
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Basics from theoretical lectures
5 10.07.2014
Main topics of the CAE-Workshops Introduction and technical lectures
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Mediation of basic understanding For the sensible editing of the task necessary basic knowledge No substitute for deepening basics
Demonstration of use cases and examples Sensitization for modelling an interpretation of results Boundaries of applicability of the discussed calculation methods
6 10.07.2014
Main topics of the CAE-Workshops Introduction and technical lectures
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
7 10.07.2014
Main topics of the CAE-Workshops Application of the learned knowledge
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Theoretical basics, e.g. technical mechanics are deepened during the engineering studies The practical application of this knowledge is coming off badly frequently
Idea: give the students the opportunity to work on their own, but supervised on computational and optimization tasks The theoretical basics are put into an application-oriented context, the understanding is deepened and the meaning is recognized
8 10.07.2014
Main topics of the CAE-Workshops Application of the learned knowledge - Examples
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Von-Mises-stress
Maximum von-Mises-stress 191,91 MPa
9 10.07.2014
Main topics of the CAE-Workshops Practice-orientation
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
The tasks are structured in a way, that focuses on application-oriented examples
The students work on problems computational engineers periodically deal with in their everyday working life Sensitization for possible challenges in the model preparation in case the model does not conform to a academically idealized example The students realize the relevance of the lecture and their interest is intensified by practice-oriented outstanding feedback
10 10.07.2014
Main topics of the CAE-Workshops Practice-orientation
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
11 10.07.2014
Main topics of the CAE-Workshops Interpretation and Presentation of the results
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Scenario: a group of computational engineers has to present their computation results to the client
Computational engineers = students client = supervising assistant and paricipants
Task: Explain the problem and the modelling Present and interpret the results Discussion
Intense examination with the following questions:
• What do I have to do and what do I want to figure out? • How do I arrive at a good result? • How do I interpret my results and its quality? • How can I interpret a colleague's result?
12 10.07.2014
Main topics of the CAE-Workshops Interpretation and Presentation of the results
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
13 10.07.2014
Time schedule
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Dienstag Mittwoch Donnerstag FreitagDatum 21.8 22.8 23.8 24.8
Uhrzeit8:00
Lochplatte Torsionsstab Sperrdifferential
9:00Einführung FEM 3-Punkt-
BiegeversuchTorsionsstab Sperrdifferential
10:00Einführung FEM 3-Punkt-
BiegeversuchPleuel Sperrdifferential
11:00Biegebalken 3-Punkt-
BiegeversuchPleuel Gruppenvorträge
12:00
13:00Biegebalken 3-Punkt-
BiegeversuchPleuel
14:00Biegebalken Torsionsstab Pleuel
15:00
16:00
17:00
Montag Dienstag Mittwoch Donnerstag FreitagDatum 27.8 28.8 29.8 30.8 31.8
Uhrzeit8:00
Übung Topo Übung Topo Übung Shape Freies Üben
9:00Endtopf Übung Topo Einführung
ShapeoptimierungÜbung Shape Freies Üben
10:00Endtopf Übung Topo Einführung
ShapeoptimierungÜbung Shape Übergabe
Zertifikate11:00
Gruppenvorträge Übung Topo Einführung Shapeoptimierung
Gruppenvortrag
12:00
13:00 Einführung Optimierung
Übung Topo Übung Shape
14:00 Einführung Optimierung
Übung Topo Übung Shape Prüfung falls erforderlich
15:00 Einführung Optimierung
16:00
17:00
Montag Dienstag Mittwoch Donnerstag FreitagDatum 27.2 28.2 29.2 1.3 2.3
Uhrzeit8:00
Einfaches Pendel Schubkurbel Pleuel Freies Üben
9:00Endtopf Einfaches Pendel Ventil Pleuel Freies Üben
10:00Endtopf Feder mit Vorspannung Ventil Pleuel Freies Üben
11:00Einführung MKS Feder mit Vors.
GruppenvorträgeGruppenvorträge Gruppenvorträge Übergabe Zertifikate
12:00
13:00Endtopf Schubkurbel Pleuel
14:00Endtopf Schubkurbel Pleuel Prüfung: Wahlpflicht- und
Wahlfach
15:00
16:00
17:00
Summer semester
Winter semester
FEM
Optimization Multi-body simulation
14 10.07.2014
Tasks: Basic modelling techniques with a text editor 2D geometry und simplification of models 3D with contact modelling Different mesh types Preparation of geometries Modal analysis Thermal conduction Fiber reinforced plastics Additional tasks
Types of tasks Finite element method
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
15 10.07.2014
Tasks: Basic modelling techniques with a text editor 2D geometry und simplification of models 3D with contact modelling Different mesh types Preparation of geometries Modal analysis Thermal conduction Fiber reinforced plastics Additional tasks
Types of tasks Finite element method
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
16 10.07.2014
Tasks: Basic modelling techniques with a text editor 2D geometry und simplification of models 3D with contact modelling Different mesh types Preparation of geometries Modal analysis Thermal conduction Fiber reinforced plastics Additional tasks
Types of tasks Finite element method
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
17 10.07.2014
Tasks: Basic modelling techniques with a text editor 2D geometry und simplification of models 3D with contact modelling Different mesh types Preparation of geometries Modal analysis Thermal conduction Fiber reinforced plastics Additional tasks
Types of tasks Finite element method
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Tet4, 1mm
Tet4, 3mm
Hex8, 1mm
Hex8, 3mm
Tet10, 1mmTet10, 3mm
Hex20, 1mm
Hex20, 3mm0
5000
10000
15000
20000
25000
30000
35000
Tet4. 3 mm Hex8, 3mm Tet10, 3mm Hex20, 3mm Tet4. 1 mm Hex8, 1mm Hex20, 1mm Tet10, 1mm
n_Knoten
Elemente
18 10.07.2014
Tasks: Basic modelling techniques with a text editor 2D geometry und simplification of models 3D with contact modelling Different mesh types Preparation of geometries Modal analysis Thermal conduction Fiber reinforced plastics Additional tasks
Types of tasks Finite element method
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
241 Hz 387 Hz 492 Hz
19 10.07.2014
Lecture notes can be downloaded at the beginning of the lecture
Types of tasks Finite element method / lecture notes
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
20 10.07.2014
Tasks: Simple systems – joints and boundary conditions Spring and Damper Extract different values Use of contacts Import of external data out of a CAD environment Combination of simulation and experiment hybrid multi-body simulation with flexible bodies Additional tasks
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Multi-body simulation
21 10.07.2014
Tasks: Simple systems – joints and boundary conditions Spring and Damper Extract different values Use of contacts Import of external data out of a CAD environment Combination of simulation and experiment hybrid multi-body simulation with flexible bodies Additional tasks
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Multi-body simulation
22 10.07.2014
Tasks: Simple systems – joints and boundary conditions Spring and Damper Extract different values Use of contacts Import of external data out of a CAD environment Combination of simulation and experiment hybrid multi-body simulation with flexible bodies Additional tasks
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Multi-body simulation
Verbrennungsstoß
23 10.07.2014
Lecture notes can be downloaded at the beginning of the lecture
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Multi-body simulation / lecture notes
24 10.07.2014
Optimization: Topology optimization
Prepare a given design and transfer into an optimization cycle Use of suitable models out of the FEM part of the workshop to optimize them
Shape optimization Reduction of stress at highly-stressed components Use of suitable models out of the FEM part of the workshop to optimize them
Bead optimization Optimization of shell components
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Optimization
25 10.07.2014
Optimization: Topology optimization
Prepare a given design and transfer into an optimization cycle Use of suitable models out of the FEM part of the workshop to optimize them
Shape optimization Reduction of stress at highly-stressed components Use of suitable models out of the FEM part of the workshop to optimize them
Bead optimization Optimization of shell components
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Optimization
26 10.07.2014
Optimization: Topology optimization
Prepare a given design and transfer into an optimization cycle Use of suitable models out of the FEM part of the workshop to optimize them
Shape optimization Reduction of stress at highly-stressed components Use of suitable models out of the FEM part of the workshop to optimize them
Bead optimization Optimization of shell components
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Optimization
Before the optimization After the optimization
27 10.07.2014
Link
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Types of tasks Optimization / lecture notes
28 10.07.2014
Technical requirements 40 Windows PCs About 40 Licenses for the used software (partly covered by KIT but additional licenses need to be requested) License reservation for the duration of the examination period
Personnel expenditure (per semester) 3x60 h tutors (workshop support, invigilators during exam, actualization of lecture notes and changes according to newer software versions) 280 h assistants (organization, execution, marking) Guest lecture once a Jahr by FE-Design
Technical and personnel requirements
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
29 10.07.2014
Examination
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
Fachpraktikum II ZusatzfachSchein Schein
3 3
Diplom
Wahlpflichtfach Ergänzungsfach im SP ZusatzmodulmPr(25min)/sPr(3h) Schein Schein
3 3 35 3 3
Bachelor
Wahlpflichtfach Wahlfach Ergänzungsfach im SP Zusatzmodul FachpraktikummPr(25min)/sPr(3h) mPr(20min)(evtl auch sPr) Note/Schein Note/Schein
3 3 3 35 4 3 3
nicht zugelassen
Master
30 10.07.2014
Partly practical Tasks on PC (FEM und MKS), Exclusively partial aspects are examined in small tasks All results need to be written on the exercise sheet and only this will be scored
Theory (FEM and multi-body simulation or optimization)
Theoretical backgrounds, treated during lecture, in the lecture notes and during the group presentations
No further tools allowed
Type of Examination
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
31 10.07.2014
Complete during the course and the lecture notes treated content (e.g. lecture, lecture notes for FEM and optimization, workshop tasks)
Theoretical questions to the lecture notes (about 70%)
Lecture notes FEM and optimization Training scripts for ABAQUS and TOSCA (general knowledge, no specific tasks)
Practical Tasks(about 30%) During the workshop achieved skills in ABAQUS
Examination Contents fem/optimization
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
32 10.07.2014
Complete during the course and the lecture notes treated content (e.g. lecture, lecture notes for FEM and multi-body simulation, workshop tasks)
Theoretical questions to the lecture notes (about 50%)
Lecture notes FEM and multi-body simulation Training scripts for ABAQUS and ADAMS (general knowledge, no specific tasks)
Practical Tasks(about 50%) During the workshop achieved skills in ABAQUS During the workshop achieved skills in ADAMS
Examination Contents fem/multi-body simulation
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
33 10.07.2014
Evaluation Results – CAE Workshop SS2012
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
„Fühlen sie sich ausreichend vorbereitet selbstständig kleinere Berechnungsaufgaben durchzuführen?“ „Ist die Aufteilung von Theorie (Einführungsvorträge) und praktischen Aufgaben im CAE-WS angemessen?“
„Würden sie den CAE-WS weiterempfehlen?“
34 10.07.2014
Evaluation results
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
„Ist die Aufteilung von Theorie (Einführungsvorträge) und praktischen Aufgaben im CAE-WS angemessen?“
„Würden sie den CAE-WS weiterempfehlen?“
„Fühlen sie sich ausreichend vorbereitet selbstständig kleinere Berechnungsaufgaben durchzuführen?“
35 10.07.2014
CAE–Workshop – Impressions
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger
36 10.07.2014
Thank you for your attention!
iprod - CAE workshop at IPEK - Dipl.-Ing. Markus Spadinger