Homogenization‐based topology optimization for high‐resolution manufacturable microstructures

Summary This paper presents a projection method to obtain high‐resolution, manufacturable structures from efficient and coarse‐scale homogenization‐based topology optimization results. The presented approach bridges coarse and fine scale, such that the complex periodic microstructures can be represe...

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Vydáno v:International journal for numerical methods in engineering Ročník 113; číslo 8; s. 1148 - 1163
Hlavní autoři: Groen, Jeroen P., Sigmund, Ole
Médium: Journal Article
Jazyk:angličtina
Vydáno: Bognor Regis Wiley Subscription Services, Inc 24.02.2018
Témata:
Heuristic methods
High resolution
Homogenization
manufacturing constraints
Topology optimization
ISSN:0029-5981, 1097-0207
On-line přístup:Získat plný text
Tagy: Přidat tag
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Abstract Summary This paper presents a projection method to obtain high‐resolution, manufacturable structures from efficient and coarse‐scale homogenization‐based topology optimization results. The presented approach bridges coarse and fine scale, such that the complex periodic microstructures can be represented by a smooth and continuous lattice on the fine mesh. A heuristic methodology allows control of the projected topology, such that a minimum length scale on both solid and void features is ensured in the final result. Numerical examples show excellent behavior of the method, where performances of the projected designs are almost equal to the homogenization‐based solutions. A significant reduction in computational cost is observed compared to conventional topology optimization approaches.
AbstractList Summary This paper presents a projection method to obtain high-resolution, manufacturable structures from efficient and coarse-scale homogenization-based topology optimization results. The presented approach bridges coarse and fine scale, such that the complex periodic microstructures can be represented by a smooth and continuous lattice on the fine mesh. A heuristic methodology allows control of the projected topology, such that a minimum length scale on both solid and void features is ensured in the final result. Numerical examples show excellent behavior of the method, where performances of the projected designs are almost equal to the homogenization-based solutions. A significant reduction in computational cost is observed compared to conventional topology optimization approaches.
This paper presents a projection method to obtain high‐resolution, manufacturable structures from efficient and coarse‐scale homogenization‐based topology optimization results. The presented approach bridges coarse and fine scale, such that the complex periodic microstructures can be represented by a smooth and continuous lattice on the fine mesh. A heuristic methodology allows control of the projected topology, such that a minimum length scale on both solid and void features is ensured in the final result. Numerical examples show excellent behavior of the method, where performances of the projected designs are almost equal to the homogenization‐based solutions. A significant reduction in computational cost is observed compared to conventional topology optimization approaches.
Summary This paper presents a projection method to obtain high‐resolution, manufacturable structures from efficient and coarse‐scale homogenization‐based topology optimization results. The presented approach bridges coarse and fine scale, such that the complex periodic microstructures can be represented by a smooth and continuous lattice on the fine mesh. A heuristic methodology allows control of the projected topology, such that a minimum length scale on both solid and void features is ensured in the final result. Numerical examples show excellent behavior of the method, where performances of the projected designs are almost equal to the homogenization‐based solutions. A significant reduction in computational cost is observed compared to conventional topology optimization approaches.
Author Groen, Jeroen P.
Sigmund, Ole
Author_xml – sequence: 1
  givenname: Jeroen P.
  orcidid: 0000-0003-3565-9385
  surname: Groen
  fullname: Groen, Jeroen P.
  email: jergro@mek.dtu.dk
  organization: Technical University of Denmark
– sequence: 2
  givenname: Ole
  orcidid: 0000-0003-0344-7249
  surname: Sigmund
  fullname: Sigmund, Ole
  organization: Technical University of Denmark
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Snippet Summary This paper presents a projection method to obtain high‐resolution, manufacturable structures from efficient and coarse‐scale homogenization‐based...
This paper presents a projection method to obtain high‐resolution, manufacturable structures from efficient and coarse‐scale homogenization‐based topology...
Summary This paper presents a projection method to obtain high-resolution, manufacturable structures from efficient and coarse-scale homogenization-based...
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SubjectTerms Heuristic methods
High resolution
Homogenization
manufacturing constraints
Topology optimization
Title Homogenization‐based topology optimization for high‐resolution manufacturable microstructures
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