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| Detailed information |
| Original study plan |
Master's programme Mechanical Engineering 2025W |
| Learning Outcomes |
Competences |
| Students are able to use advanced CAD techniques in a targeted and efficient manner to solve complex technical problems (k3). They can plan, implement and present a design project independently, from concept to design to documentation (k6). Students are well-versed in production-oriented design and can implement cast, sheet metal bending and welded constructions (k3). They are also able to carry out kinematic and dynamic analyses, for example to check installation spaces and determine forces (k3). Furthermore, they are able to estimate strength and deformations using static FEM analyses and interpret the results, but also to investigate the natural vibration behavior of components (k3, k4, k5). Students are able to optimize existing models on the basis of the parameters used (k6).
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| Skills |
Knowledge |
| Students can use advanced modelling techniques such as surface design and specialized design environments for sheet metal bending parts, welded structures and assembly features (k3). They are proficient in creating kinematic and dynamic motion analyses and can interpret the results correctly (k3, k5). They can create FEM models for displacement, stress and vibration analysis and interpret their results appropriately (k4, k5). Students can carry out a project independently and present the results of their work in a clear and structured manner (k6).
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Students know the basics of advanced CAD modeling, particularly in the areas of surface modeling and sheet metal bending and welding design (k2, k3). They have in-depth knowledge of the requirements of production-oriented design and understand the importance and application of corresponding features (k2, k3). Students know how motion and dynamic analyses are used to determine forces in assemblies and understand the principles on which such simulations are based (k1, k2). They are familiar with the fundamentals and typical areas of application of FEM for displacement, stress and vibration analysis and understand the fundamentals of parameter optimization to improve design projects (k2, k3).
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| Criteria for evaluation |
In-class participation, practical exercises, final project
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| Methods |
Practical Course with project
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| Language |
German |
| Changing subject? |
No |
| Further information |
none
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| Earlier variants |
They also cover the requirements of the curriculum (from - to)
481WLVACPEP22: PR Computer Aided Product Development (2022W-2023S)
MEMWCPRCOPR: PR Computer Aided Product Development (2010S-2022S)
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