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Vakcode: wb1416 |
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Vaknaam: Numerieke methoden voor dynamica
More
information on next page |
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Het betreft een college |
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TUD studiepunten: 2 |
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ECTS studiepunten: 3 |
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Subfaculteit der
Werktuigbouwkunde en Maritieme Techniek |
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Docent(en): Rixen,
prof.dr.ir. D.J. |
Tel.: 015-278 15 23 |
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Trefwoorden: Finite Elements, computer methods, numerical solver, Dynamic
analysis |
Cursusjaar: |
4 |
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Periode: |
0/0/2/2 |
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Coll.uren p/w: |
2 |
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Andere uren: |
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Toetsvorm: |
Exercices and oral examination |
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Tentamenperiode:
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To be
arranged |
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(zie jaarindeling) |
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Voorkennis: Statics and Strength (e.g. wb1204 and
wb1309),
Dynamics (e.g. wb1308), Linear Algebra (e.g. wi1311wb), Numerical Analysis
(e.g. wi2021TU) Students interested in the
course are invited to contact Prof. Daniel J. Rixen |
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Wordt vervolgd door:
nothing |
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Uitgebreide beschrijving van het
onderwerp: The course has been
designed to discuss the most fundamental concepts underlying the numerical
methods applied in Finite Element analysis, with some emphasis on the dynamic
analysis of structures. The basic analysis procedure for dynamic systems will
be discussed, i.e. computation of free vibration modes, harmonic analysis and
time-integration of linear and non-linear Finite Element models. Important
concepts specific to dynamic analysis (e.g. mass lumping, structural damping
and model reduction) will be reviewed. The most common solution methods will
be presented in the light of their mechanical interpretation, including
direct and iterative linear solvers and solution methods for eigenvalue
problems arising in vibration and stability analysis of very large systems. §
F.E. formulation for static and dynamic
analysis,
§
Free
vibration modes and modal superposition methods
§
Time-integration
of discrete systems and model reduction techniques
§
Eigensolvers
for real problems
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Direct and
iterative solvers for F.E. models
§
Domain
Decomposition methods for parallel computing
§ Exercice with Matlab and Ansys
More
information: wb1416sum.htm |
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College
materiaal: Course notes will be provided |
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Referenties vanuit de literatuur: 1. Mechanical Vibrations, Theory and Application to
Structural Dynamics, M. Géradin and D. Rixen, Wiley, 1997. 2. The Finite Element Method: Linear Static and Dynamic
Finite Element Analysis, T.J.R. Hughes Prentice-Hall, 1987. 3. Finite Element Procedures, K.J. Bathe,
Prentice-Hall, 1996 4. Matrix Computation, G.H. Golub and C.F. Van
Loan, Johns Hopkins University Press, 1996. |
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Opmerkingen (specifieke informatie over
tentaminering, toelatingseisen, etc.): The examination will consist in an exercice and in
an oral examination on the theory. The students are allowed to consult their
notes to prepare the questions. The project exercice will be taken into
account for the final marks. |
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Leerdoelen: The aim of the lecture is to make students realize the importance of
numerical methods in engineering computations and to awaken a sense of
curiosity and criticism when using structural engineering codes. Learning the
fondamentals of computational procedures for Finite Elements and how they
relate to the underlying mechanics will allow them to choose the most
efficient and accurate numerical methods. |
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Computer
gebruik: Some concepts will be illustrated during the course
by using computer simulations. The students will use Matlab and ANSYS for
their project work. |
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Practicum: |
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Ontwerp component: The students have to perform a structural analysis
of a simple but realistic model first using Matlab, then using the
capabilities of ANSYS |
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Percentage ontwerponderwijs:
25 % |
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