Detail publikace

Design Study of the Heat Switch Base Plate with Single and Multi-material Topology Optimization

LÖFFELMANN, F. ŠPLÍCHAL, J.

Originální název

Design Study of the Heat Switch Base Plate with Single and Multi-material Topology Optimization

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

angličtina

Originální abstrakt

A miniaturized heat switch is a device under the development dedicated to control automatic cooling of a space instrument box. The design study presented in this paper focuses on a stiffness issue of the switch base plate which should assure good thermal contact with the instrument box. Due to inner deformations of the switch, base plate deforms which might decrease contact area needed to the heat transfer. Thus several design concepts of the copper base plate were investigated and multi-material additive manufacturing was reviewed. One approach was to decrease deformations of existing geometry by multi-material design by local exchange of copper with steel, first by engineering intuition, then by the stiffness based topology optimization, and finally with the layer-wise topology optimization better respecting manufacturing possibilities. Another approach was to change the geometry and use the topology optimization constrained with a flatness of the base plate but with single material. Finally, deformation changes of all the variants were compared.

Klíčová slova

Stiffness, structural optimization, multiple materials, layer optimization, 3D printing, additive manufacturing

Autoři

LÖFFELMANN, F.; ŠPLÍCHAL, J.

Vydáno

8. 11. 2018

ISBN

978-80-214-5696-9

Kniha

13th Research and Education in Aircraft Design Conference

Strany od

85

Strany do

97

Strany počet

13

URL

BibTex

@inproceedings{BUT151336,
  author="František {Löffelmann} and Jan {Šplíchal}",
  title="Design Study of the Heat Switch Base Plate with Single and Multi-material Topology Optimization",
  booktitle="13th Research and Education in Aircraft Design Conference",
  year="2018",
  pages="85--97",
  doi="10.13164/conf.read.2018.9",
  isbn="978-80-214-5696-9",
  url="https://dspace.vutbr.cz/bitstream/handle/11012/137297/READ-2018-09.pdf?sequence=1&isAllowed=y"
}