Emne
Utvalgte emner i maskinteknikk (MSK900)
The main objective of this course is to provide a comprehensive theoretical and practical understanding of advanced approaches to design, geometric modeling and mechanical analysis and simulation. The course focuses on the methods and tools used for effective design and modeling of mechanical parts and simulation of machines, mechanisms and processes.
Dette er emnebeskrivelsen for studieåret 2016-2017. Merk at det kan komme endringer.
Semesters
Fakta
Emnekode
MSK900
Vekting (stp)
10
Semester undervisningsstart
Høst
Undervisningsspråk
Engelsk
Antall semestre
1
Vurderingssemester
Høst
Timeplan
Innhold
The course content is adjustable based on the potential candidate(s) direction of study, but will focus on the following topics: design process, problem definition and design concept generation; Team work in design; Modeling and simulation, Geometric modeling; Computer methods for design for x (for example design for manufacturing, design for assembly, design for inspection and maintenance, etc.); Concepts of virtual engineering, Parametricc design, Human factors in design work, Design related risks, reliability and safety; Structural integrity, Robust design; Economic design and cost evaluation; Legal and ethical issues in design; Material modeling and simulation techniques.
Læringsutbytte
Upon finishing the course, the candidate is expected to be able to, among others:
- Understand various approaches to product development
- Distinguish the systematic approaches used in various design for x principles
- Use advanced functions in commercial 3D modeling and simulation software
- Simulate performance of machines, mechanisms and processes
- Understand the concepts of engineering design optimization and virtual engineering
Forkunnskapskrav
Ingen
Anbefalte forkunnskaper
Basic background in design of machine components and use of 3D modeling tools; Knowledge of programming tools in engineering such as MATLAB, Solid mechanics and structural integrity concepts.
Eksamen / vurdering
| Vurderingsform | Vekting | Varighet | Karakter | Hjelpemiddel | Exam system | Withdrawal deadline | Exam date |
|---|---|---|---|---|---|---|---|
| Prosjektoppgave og muntlig eksamen | 1/1 | Bestått/ Ikke bestått | — | 09.11.2016 | — | ||
| Muntlig eksamen | 1/2 | Bestått/ Ikke bestått | — | 09.11.2016 | — | ||
| Prosjektoppgave | 1/2 | Bestått/ Ikke bestått | — | 09.11.2016 | — |
The oral exam can be conducted in a form of presentation.
Fagperson(er)
Faglærer:
Ove MikkelsenInstituttleder:
Mona Wetrhus MindeFaglærer:
Vidar Folke HansenFaglærer:
Hirpa Gelgele LemuFaglærer:
Chandima Ratnayake MudiyanselageEmneansvarlig:
Knut Erik Teigen GiljarhusFaglærer:
Dimitrios PavlouArbeidsformer
The course is conducted as self-study with student presentations, colloquia, seminars, project work and computer-based modeling and simulation exercises. Project works are submitted in a scientific article format and graded.
Åpent for
The course is open for students registered for PhD study.
Litteratur
- J.A. Cottrell, T.J.R. Hughes and Y. Bazilevs (2009), Isogeometric Analysis-Towards Integration of CAD and FEA, John Wiley & Sons, Ltd.
- George E. Dieter (2000), Engineering Design, 3rd edition.
- Diverse articles and book chapters
Emnebeskrivelsen er hentet fra Felles studentsystem Versjon 1