Wavelet Galerkin Methods for Elastic Multibody Systems
Author
Editor
- P. Neittaanmäki
- T. Rossi
- S. Korotov
- E. Oñate
- J. Périaux
- D. Knörzer
Summary, in English
In the present paper we discuss simulation with a wavelet element method.
The model problem is a simplified 2D-roller bearing model consisting of an elastic outer
and inner ring and a roller. This model reflects typical properties of elastic multibody
systems, eg. combination of gross motion with elastic deformation and contact problems.
The wavelet element method is implemented in a similar way as the widely used finite
element method. Its inherent advantages concerning model reduction will be demonstrated
as well as the influence of model reduction on simulation time.
The model problem is a simplified 2D-roller bearing model consisting of an elastic outer
and inner ring and a roller. This model reflects typical properties of elastic multibody
systems, eg. combination of gross motion with elastic deformation and contact problems.
The wavelet element method is implemented in a similar way as the widely used finite
element method. Its inherent advantages concerning model reduction will be demonstrated
as well as the influence of model reduction on simulation time.
Publishing year
2004
Language
English
Publication/Series
European Congress on Computational Methods in Applied Sciences and Engineering ECCOMAS
Volume
II
Full text
Links
Document type
Conference paper
Publisher
P. Neittaanmäki, T. Rossi, S. Korotov, E. Oñate, J. Périaux, and D. Knörzer (eds.),
Topic
- Mathematics
Keywords
- Roller Bearings
- Elasticity
- Galerkin
- Wavelet
Conference name
Fourth European Congress on Computational Methods in Applied Sciences and Engineering
Conference date
2004-07-24 - 2004-07-28
Conference place
Jyväskylä, Finland
Status
Published