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151-0524-00L 4 Credits BSC , DR , MSC , NDS D-HEST , D-MAVT , D-PHYS , D-ITET , D-MATL

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Continuum Mechanics I

Lecturers & Examiners: Dr. Alexander Edmund Ehret

VVZ CR n/a

Last Updated: 2026-02-05 16:30:13

Abstract

The lecture deals with constitutive models that are relevant for the design and analysis of components and structures. These include anisotropic linear elasticity, linear viscoelasticity, plasticity and viscoplasticity. The basic concepts of homogenization and laminate theory are introduced. Theoretical models are complemented by examples of engineering applications and experiments.

Objective

After successful completion of the course students are able to • explain basic theories for solving continuum mechanics problems • proficiently apply these theories by solving application-related academic examples • relate the theories and examples to real engineering applications and challenges • distinguish between different mechanical behaviors of materials • systematically select appropriate constitutive theories suitable to analyze and model these materials

Content

Anisotropic Elasticity, Linear Elastic and Linear Viscous Material Behavior, Viscoelasticity, Micro-Macro Modelling, Laminate Theory, Plasticity, Viscoplasticity, Examples of Engineering Applications, Comparison with Experiments

Resources

Lecture Notes

yes

General Information

Language: English
Levels: BSC , DR , MSC , NDS
Frequency: Yearly recurring

Examination

Type: session examination
Mode: written 60 minutes
Aids: None

Course Components

Type	Title	Time & Place	Hours
lecture	Continuum Mechanics I	Fri 08:15-10:00 (HG D 7.1)	2 h weekly
exercise	Continuum Mechanics I Exercises start in the second week of the semester.	Wed 12:15-13:00 (HG E 1.1)	1 h weekly

Offered In

Mechanical Engineering Bachelor
- Bachelor Studies (Programme Regulations 2022)
  - Focus Specialization
    - Engineering for Health (Focus Coordinator: Prof. Bradley Nelson)
    - Design, Mechanics and Manufacturing (Focus Coordinator: Prof. Dennis Kochmann To achieve the required 20 credit points for the Focus Specialization Design, Mechanics and Manufacturing, all of the courses listed can be selected. If you wish to take a Master level course, you must obtain the consent of the responsible lecturer. After approval by the focus coordinator, an additional course to the listed courses can be requested. There are recommended lectures for the “Design” track, the “Mechanics” track and the “Manufacturing” track. For recommended courses and further information, please visit the MAVT website for Focus Specialization ( ).)
Mechanical Engineering Master
- Core Courses
Biomedical Engineering Master
- Track Courses
  - Biomechanics
    - Recommended Elective Courses (These courses are particularly recommended for the Biomechanics track. Please consult your track advisor if you wish to select other subjects.)
Micro- and Nanosystems Master
- Core Courses
  - Material, Surfaces and Properties
MAS in Medical Physics
- Specialisation in General Medical Physics
  - Major in Biomechanics
    - Electives
Doctorate Materials Science (Further information at: )
- Subject Specialisation