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Event

Failure of structural materials: deformation and fracture [WS192181711]

Type
lecture/exercise (VÜ)
Term
WS 19/20
SWS
3
Language
Deutsch
Appointments
30
Links
ILIAS

Lecturers

Organisation

  • KIT-Fakultät für Maschinenbau

Part of

Literature

  • Engineering Materials, M. Ashby and D.R. Jones (2nd Edition, Butterworth-Heinemann, Oxford, 1998); sehr lesenswert, relativ einfach aber dennoch umfassend, verständlich
  • Mechanical Behavior of Materials, Thomas H. Courtney (2nd Edition, McGraw Hill, Singapur); Klassiker zu den mechanischen Eigenschaften der Werkstoffe, umfangreich, gut
  • Bruchvorgänge in metallischen Werkstoffen, D. Aurich (Werkstofftechnische Verlagsgesellschaft Karlsruhe), relativ einfach aber dennoch umfassender Überblick für metallische Werkstoffe

Appointments

  • 15.10.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 15.10.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 22.10.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 22.10.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 29.10.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 29.10.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 05.11.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 05.11.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 12.11.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 12.11.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 19.11.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 19.11.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 26.11.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 26.11.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 03.12.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 03.12.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 10.12.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 10.12.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 17.12.2019 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 17.12.2019 15:45 - 17:15 - Room: 10.50 Raum 602
  • 07.01.2020 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 07.01.2020 15:45 - 17:15 - Room: 10.50 Raum 602
  • 14.01.2020 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 14.01.2020 15:45 - 17:15 - Room: 10.50 Raum 602
  • 21.01.2020 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 21.01.2020 15:45 - 17:15 - Room: 10.50 Raum 602
  • 28.01.2020 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 28.01.2020 15:45 - 17:15 - Room: 10.50 Raum 602
  • 04.02.2020 14:00 - 15:30 - Room: 10.91 Oberer Hörsaal Maschinenbau
  • 04.02.2020 15:45 - 17:15 - Room: 10.50 Raum 602

Note

  1. Introduction
  2. linear elasticity
  3. classification of stresses
  4. Failure due to plasticity
    • tensile test
    • dislocations
    • hardening mechanisms
    • guidelines for dimensioning
  5. composite materials
  6. fracture mechanics
    • hypotheses for failure
    • linear elasic fracture mechanics
    • crack resitance
    • experimental measurement of fracture toughness
    • defect measurement
    • crack propagation
    • application of fracture mechanics
    • atomistics of fracture

The student

  • has the basic understanding of mechanical processes to explain the relationship between externally applied load and materials strength.
  • can explain the foundation of linear elastic fracture mechanics and is able to determine if this concept can be applied to a failure by fracture.
  • can decribe the main empirical materials models for deformation and fracture and can apply them.
  • has the physical understanding to describe and explain phenomena of failure.

preliminary knowlegde in mathematics, mechanics and materials science recommended

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

The assessment consists of an oral examination (ca. 30 min) according to Section 4(2), 2 of the examination regulation.