| Prerequisites and co-requisites |
None |
| Course content |
- Basics of production planning
- Optimization of resource utilization and productivity in manufacturing
- Basics of production metrology
- Methods of production metrology
- Quality management
- Test planning
- Measurement and test data acquisition
- Condition monitoring of machines
- Vibration measurement
- Vibration analysis
- Defects and damages
- Materials testing
- Cutting materials
- Welding
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| Learning outcomes |
Production Planning
- Students will be able to describe the most important methods of production planning and apply them to selected examples.
- Students will be able to analyze given manufacturing plans, describe advantages and disadvantages, and identify approaches for optimization.
Manufacturing Metrology:
Students will be able to
- apply basic principles of production metrology.
- explain and apply the most important methods of production metrology.
- assign the most suitable procedure to the respective measuring tasks.
- use the most relevant shop floor measuring equipment.
- explain the most important principles of quality management.
- apply the 3D coordinate measuring technique
Condition monitoring of machines:
- Students will be able to apply the most important basics of machine monitoring and vibration measurement.
- Students will be able to explain the method of vibration analysis and to correlate machine faults with their respective vibration patterns.
Materials Testing:
- Students will be able to explain basic principles of materials testing.
- Students will be able to explain and apply testing methods for mechanical engineering materials.
- The students can explain basic parameters of cutting materials as well as the behavior of materials during welding, in order to use this knowledge to optimize relevant manufacturing processes.
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| Planned learning activities and teaching methods |
|
| Assessment methods and criteria |
- Written exam in parts
- Evaluation of the laboratory exercises
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| Comment |
None
|
| Recommended or required reading |
-
Bargel, Hans-Jürgen; Schulze, Günter (2012): Werkstoffkunde. 11., bearb. Aufl. 2012. Berlin, Heidelberg: Springer Berlin Heidelberg Imprint Springer (= Springer-Lehrbuch).
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Jorden, Walter; Schütte, Wolfgang (2017): Form- und Lagetoleranzen: Handbuch für Studium und Praxis: mit 17 Tabellen, 195 Leitregeln und zahlreichen Praxisbeispielen. 9., neu bearbeitete Auflage. München: Hanser.
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Keferstein, Claus P.; Dutschke, Wolfgang (2008): Fertigungsmesstechnik: praxisorientierte Grundlagen, moderne Messverfahren. 6., überarb. und erw. Aufl. Wiesbaden: Teubner (= Lehrbuch Maschinenbau).
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Kletti, Jürgen; Deisenroth, Rainer (2021): Lehrbuch für digitales Fertigungsmanagement: Manufacturing Execution Systems - MES. Berlin [Heidelberg]: Springer Vieweg (= Lehrbuch).
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Weck, Manfred; Brecher, Christian (2013): Werkzeugmaschinen. 5: Messtechnische Untersuchung und Beurteilung, dynamische Stabilität. 7. Aufl. Berlin Heidelberg: Springer Vieweg.
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Westkämper, Engelbert; Löffler, Carina (2016): Strategien der Produktion: Technologien, Konzepte und Wege in die Praxis. Berlin Heidelberg: Springer Vieweg. Online im Internet: DOI: 10.1007/978-3-662-48914-7
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| Mode of delivery (face-to-face, distance learning) |
Face-to-face; Laboratory exercises with compulsory attendance |