- Investigating the influence of different heat treatments on material properties
- Determination of the quasi-static deformation behavior
- Hardness testing
- Characterization of microstructure by light optical and scanning electron microscopy
- Software-supported quantitative microstructure analysis
- Fracture surface analysis
- Cyclic deformation behavior and hysteresis measurements
Module MV-WKK-198-M-4
Laboratory "Material Testing" (M, 3.0 LP)
Module Identification
Module Number | Module Name | CP (Effort) |
---|---|---|
MV-WKK-198-M-4 | Laboratory "Material Testing" | 3.0 CP (90 h) |
Basedata
CP, Effort | 3.0 CP = 90 h |
---|---|
Position of the semester | 1 Sem. in WiSe |
Level | [4] Bachelor (Specialization) |
Language | [DE] German |
Module Manager | |
Lecturers | |
Area of study | [MV-WKK] Materials Science and Engineering |
Reference course of study | [MV-88.B73-SG] M.Sc. Materials Science and Engineering |
Livecycle-State | [NORM] Active |
Courses
Type/SWS | Course Number | Title | Choice in Module-Part | Presence-Time / Self-Study | SL | SL is required for exa. | PL | CP | Sem. | |
---|---|---|---|---|---|---|---|---|---|---|
2L | MV-WKK-86170-K-4 | Laboratory "Material Testing"
| P | 28 h | 62 h |
L-Schein
| - | no | 3.0 | WiSe |
- About [MV-WKK-86170-K-4]: Title: "Laboratory "Material Testing""; Presence-Time: 28 h; Self-Study: 62 h
- About [MV-WKK-86170-K-4]: The study achievement [L-Schein] proof of successful participation in the practical course / lab must be obtained.
- About [MV-WKK-86170-K-4]:
Depending on the examination regulations, the course work can/must be submitted as graded examination work. In this case the repetition rules of the examination regulations for practical laboratory work apply.
Contents
Competencies / intended learning achievements
The students are able to
- explain the influence of different heat treatments on the resulting material properties
- recognize the heat treatment state of a metallic material by characterizing the microstructure with light optical and scanning electron microscopy and to this to the deformation behavior
- assign fracture surfaces to the respective heat treatment condition
- determine quantitatively the different parts of microstructure
- carry out and evaluate macro hardness measurements
- characterize the cyclic deformation behavior by means of hysteresis measurements
- name the characteristic values of the stress-strain hysteresis
- structure and present the research results in an evaluative manner
Literature
- E. Macherauch: Praktikum in Werkstoffkunde, F. Vieweg, Braunschweig
- H. Schumann: Metallographie, Deutscher Verlag für Grundstoffindustrie, Leipzig
- H. Blumenauer: Werkstoffprüfung, Deutscher Verlag für Grundstoffindustrie, Leipzig, Stuttgart
- E. Ross: Werkstoffkunde für Ingenieure, Springer-Verlag, Berlin
Requirements for attendance (informal)
Modules:
- [MV-AWP-253-M-4] Materials Science I for Students of other faculties (M, 3.0 LP)
- [MV-AWP-254-M-4] Materials Science I for Students of other faculties (M, 3.0 LP)
- [MV-WKK-B100-M-4] Materials Science (M, 11.0 LP)
Requirements for attendance (formal)
None
References to Module / Module Number [MV-WKK-198-M-4]
Module-Pool | Name | |
---|---|---|
[MV-ALL-MPOOL-6] | Wahlpflichtmodule allgemein | |
[MV-BioVT-MPOOL-6] | Wahlpflichtmodule Bioverfahrenstechnik | |
[MV-MatWerk-MPOOL-6] | Wahlpflichtmodule Materialwissenschaften und Werkstofftechnik |
Notes on the module handbook of the department Mechanical and Process Engineering
Ausnahmen: