Introduction to Theory of Materials

  • Typ: Lecture (V)
  • Lehrstuhl: KIT-Fakultäten - KIT-Fakultät für Maschinenbau - Institut für Angewandte Materialien - Werkstoff- und Biomechanik
    KIT-Fakultäten - KIT-Fakultät für Maschinenbau
  • Semester: SS 2022
  • Zeit: Mo 2022-04-25
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)


    Mo 2022-05-02
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-05-09
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-05-16
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-05-23
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-05-30
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-06-13
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-06-20
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-06-27
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-07-04
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-07-11
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-07-18
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)

    Mo 2022-07-25
    11:30 - 13:00, weekly
    30.41 Chemie-Hörsaal Nr. 3 (HS3)
    30.41 Chemie-Flachbau (OG 1)


  • Dozent: apl. Prof. Marc Kamlah
  • SWS: 2
  • LVNr.: 2182732
  • Hinweis: On-Site
Content

Following a brief introduction into continuum mechanics at small deformations, the classification into elastic, viscoelastic, plastic and viscoplastic constitutive models of solids is discussed. Then, one after the other, the four groups of elastic, viscoelastic, plastic and viscoplastic constitutive models are motivated and mathematically formulated. Their properties are demonstrated by means of elementary analytical solutions and examples.

The student can judge for a problem to be computed, which constitutive model should be selected depending on choice of material and loading. For computation tools such as commercial finite element codes, the students can understand the documentation with respect to the implemented constitutive models, and they can make their choice based on their knowledge. The students have basic knowledge for the development of constitutive laws.

Qualification: Engineering Mechanics; Advanced Mathematics

regular attendance: 22,5 hours
self-study: 97,5 hours

oral exam ca. 30 minutes

Language of instructionGerman
Bibliography

[1] Peter Haupt: Continuum Mechanics and Theory of Materials, Springer
[2] Skript