Multiphysics and Multimethods Problem of Rotational Glass Fiber Melt-Spinning
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@Article{IJNAMB-3-330,
author = {NICOLE MARHEINEKE†, JALO LILJO‡, JAN MOHRING‡, JOHANNES SCHNEBELE‡,
AND RAIMUND WEGENER‡},
title = {Multiphysics and Multimethods Problem of Rotational Glass Fiber Melt-Spinning},
journal = {International Journal of Numerical Analysis Modeling Series B},
year = {2012},
volume = {3},
number = {3},
pages = {330--344},
abstract = {Glass wool manufacturing is a multiphysics problem which requires the understanding of the rotational melt-spinning of ten thousands of viscous thermal slender jets by fast air streams.
Due to its high complexity an uniform numerical treatment is impossible. In this work we present
a multimethods approach that is based on an asymptotic modeling framework of slender-body
theory, homogenization and surrogate models. The algorithm weakly couples melting and spinning
phases via iterations. The possibility of combining commercial software and self-implemented code
yields satisfying efficiency off-the-shelf. The simulation results are very promising and demonstrate
the applicability and practical relevance of our approach for ongoing optimization strategies of
the production processes.},
issn = {},
doi = {https://doi.org/},
url = {http://global-sci.org/intro/article_detail/ijnamb/288.html}
}
TY - JOUR
T1 - Multiphysics and Multimethods Problem of Rotational Glass Fiber Melt-Spinning
AU - NICOLE MARHEINEKE†, JALO LILJO‡, JAN MOHRING‡, JOHANNES SCHNEBELE‡,
AND RAIMUND WEGENER‡
JO - International Journal of Numerical Analysis Modeling Series B
VL - 3
SP - 330
EP - 344
PY - 2012
DA - 2012/03
SN - 3
DO - http://doi.org/
UR - https://global-sci.org/intro/article_detail/ijnamb/288.html
KW - Rotational spinning
KW - viscous thermal jets
KW - fluid-structure interactions
KW - fluid dynamics
KW - structure mechanics
KW - heat transfer
KW - slender-body theory
KW - Cosserat rods
KW - drag models
AB - Glass wool manufacturing is a multiphysics problem which requires the understanding of the rotational melt-spinning of ten thousands of viscous thermal slender jets by fast air streams.
Due to its high complexity an uniform numerical treatment is impossible. In this work we present
a multimethods approach that is based on an asymptotic modeling framework of slender-body
theory, homogenization and surrogate models. The algorithm weakly couples melting and spinning
phases via iterations. The possibility of combining commercial software and self-implemented code
yields satisfying efficiency off-the-shelf. The simulation results are very promising and demonstrate
the applicability and practical relevance of our approach for ongoing optimization strategies of
the production processes.
NICOLE MARHEINEKE†, JALO LILJO‡, JAN MOHRING‡, JOHANNES SCHNEBELE‡,
AND RAIMUND WEGENER‡. (2012). Multiphysics and Multimethods Problem of Rotational Glass Fiber Melt-Spinning.
International Journal of Numerical Analysis Modeling Series B. 3 (3).
330-344.
doi:
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