# 311.137 Modelling and Simulation in Production Technology This course is in all assigned curricula part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_21",{id:"j_id_21",showEffect:"fade",hideEffect:"fade",target:"isAllSteop"});});This course is in at least 1 assigned curriculum part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_23",{id:"j_id_23",showEffect:"fade",hideEffect:"fade",target:"isAnySteop"});}); 2024S 2023S 2022S 2021S 2020S 2019S 2018S 2017S 2016S 2015S 2014S 2013S 2012S

2024S, VU, 2.0h, 3.0EC

## Properties

• Semester hours: 2.0
• Credits: 3.0
• Type: VU Lecture and Exercise
• Format: Presence

## Learning outcomes

After successful completion of the course, students are able to

• understand the basics of FE modeling,
• understand and analyze the models in the following physical disciplines as mechanics, heat conduction and coupled thermomechanical analysis
• fully use of Abaqus / CAE (short for Complete Abaqus Environment)

## Subject of course

Procedures for modeling and simulation in manufacturig technologies Possibilities and limits of modeling and simulation.

The course is orientated to the connection between the theory of numerical simulation and the practical usage of the FEM software with the focus on the practical tasks.

To get a clearer idea of simulation tasks, please have a look on "Nutshell.pdf", saved under Communication / Documents.

## Teaching methods

The lessons are based on a common interactive solution of model examples. Each topic is  at the beginning explained theoretically.

## Mode of examination

Written and oral

See also "Documents / Modelling and Simulation in Production Technology - Nutshell"

Theme 1:        ABAQUS - CEA interface and basic analysis steps

Example:      Bending of the beam 1D (beam)

Keywords:   CAE interface, basic FEA steps, files system, 1D elements

Theme 2:        ABAQUS - user defined output

Keywords:   CAE interface, user def. output, additional results options, 1D elements (truss)

Theme 3:        Simple thermal analysis

Example:      Steady-state thermal analysis of water tube

Keywords:   Thermal analysis, basic thermal analysis steps, initial field, boundary conditions, 2D elements, ODB viewer options, DC2D4 elements

Theme 4:        Multi step thermal analysis

Example:      Steady-state and transient thermal analysis of building insulation

Keywords:   multi step analysis, boundary conditions, cooling, heat flow, DC2D4 elements

Theme 5:        Temperature dependent material properties and phase changes

Example:      Transient heat transfer analysis of a casting process

Keywords:   Transient heat transfer, temperature dependent material properties, phase change, DC2D4

Theme 6:       Coupled fields

Example:      Coupled-field thermal-stress analysis of Steel-Al bimetal

Keywords:   Coupled fields, basic coupled field analysis steps,coupled field elements, CPE4T

Theme 7:        Contact analysis

Example:        Abaqus/Standard 2-D example: forming a channel

Keywords:     rigid surfaces, contact, true stress-strain, plasticity, assembly, CPE4/CPE4R

Theme 8:        Complex transient coupled field tasks

Example:        Abaqus/Standard 2-D example: Laser assisted bending / LLF IFT TU Wien

## Course dates

DayTimeDateLocationDescription
Thu13:00 - 16:0014.03.2024 - 27.06.2024Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Modelling and Simulation in Production Technology - Single appointments
DayDateTimeLocationDescription
Thu14.03.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu21.03.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu11.04.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu18.04.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu25.04.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu02.05.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu16.05.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu23.05.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu06.06.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu13.06.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu20.06.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology
Thu27.06.202413:00 - 16:00Seminarraum BA 08B - MB Modelling and Simulation in Production Technology

## Examination modalities

Written and Oral Exam: Simulation tasks and questions about the theoretical basics as well as practical modeling aspects.

Not necessary

## Curricula

Study CodeObligationSemesterPrecon.Info
066 445 Mechanical Engineering Elective
066 482 Mechanical Engineering - Management Elective

## Literature

No lecture notes are available.

## Previous knowledge

FEM software - not required

English - basic level

English