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Event

Laboratory "Laser Materials Processing" [WS202183640]

Type
internship (P)
Präsenz/Online gemischt
Term
WS 20/21
SWS
3
Language
Deutsch
Appointments
28
Links
ILIAS

Lecturers

Organisation

  • KIT-Fakultät für Maschinenbau

Part of

Literature

F. K. Kneubühl, M. W. Sigrist: Laser, 2008, Vieweg+Teubner

T. Graf: Laser - Grundlagen der Laserstrahlquellen, 2009, Vieweg-Teubner Verlag

R. Poprawe: Lasertechnik für die Fertigung, 2005, Springer

H. Hügel, T. Graf: Laser in der Fertigung, 2009, Vieweg+Teubner

J. Eichler, H.-J. Eichler: Laser - Bauformen, Strahlführung, Anwendungen, 2006, Springer

Appointments

  • 04.11.2020 08:00 - 11:00
  • 04.11.2020 14:00 - 17:00
  • 11.11.2020 08:00 - 11:00
  • 11.11.2020 14:00 - 17:00
  • 18.11.2020 08:00 - 11:00
  • 18.11.2020 14:00 - 17:00
  • 25.11.2020 08:00 - 11:00
  • 25.11.2020 14:00 - 17:00
  • 02.12.2020 08:00 - 11:00
  • 02.12.2020 14:00 - 17:00
  • 09.12.2020 08:00 - 11:00
  • 09.12.2020 14:00 - 17:00
  • 16.12.2020 08:00 - 11:00
  • 16.12.2020 14:00 - 17:00
  • 23.12.2020 08:00 - 11:00
  • 23.12.2020 14:00 - 17:00
  • 13.01.2021 08:00 - 11:00
  • 13.01.2021 14:00 - 17:00
  • 20.01.2021 08:00 - 11:00
  • 20.01.2021 14:00 - 17:00
  • 27.01.2021 08:00 - 11:00
  • 27.01.2021 14:00 - 17:00
  • 03.02.2021 08:00 - 11:00
  • 03.02.2021 14:00 - 17:00
  • 10.02.2021 08:00 - 11:00
  • 10.02.2021 14:00 - 17:00
  • 17.02.2021 08:00 - 11:00
  • 17.02.2021 14:00 - 17:00

Note

The laboratory compromises 8 half-day experiments, which address the following laser processing topics of metals, ceramics and polymers:

• safety aspects

• surface hardening and remelting

• melt and reactive cutting

• surface modification by dispersing or alloying

• welding

• surface texturing

• metrology

There are used CO2-, excimer-, Nd:YAG- and high power diode-laser sources within the laboratory.

The student

  • can describe the influence of laser, material and process parameters and can choose suitable parameters for the most important methods of laser-based processing in automotive engineering.
  • can explain the requirements for safe handling of laser radiation and for the design of safe laser systems.

Basic knowledge of physics, chemistry and material science is assumed.

 

The attendance to one of the courses Physical Basics of Laser Technology (2181612) or Laser Application in Automotive Engineering (2182642) is strongly recommended.

regular attendance: 34 hours
self-study: 86 hours

The assessment consists of a colloquium for every single experiment and an overall final colloquium incl. an oral presentation of 20 min.