Incremental decomposition for hex-meshing in cad using virtual topology

Benoit Lecallard; Trevor T. Robinson; Cecil G. Armstrong; Declan C. Nolan; Harsha Ramesh

doi:10.5281/zenodo.6562462

Incremental decomposition for hex-meshing in cad using virtual topology

Benoit Lecallard, Trevor T. Robinson^*, Cecil G. Armstrong, Declan C. Nolan, Harsha Ramesh

^*Corresponding author for this work

School of Mechanical and Aerospace Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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Abstract

This paper presents methods for preparing a geometry model for finite element mesh generation in a Mechanical Computer-Aided Design (MCAD) environment. It works by creating a new representation of the model through the application of virtual topology operators. The resulting “analysis topology” description is used to abstract the analysis model, enabling automated tools and experts to apply an incremental strategy to decompose the model for meshing, without modifying the original CAD model. This work also demonstrated how virtual topology enables the integration of multiple model decomposition tools to expand the capabilities of the hosting CAD environment, providing support for more meshing strategies and more freedom in how they are applied, while bridging the gap between the CAD and analysis models. Herein, the virtual topology operators used to decompose the model are checked and propagated based on the required mesh constraints to ensure the resulting mesh is conformal at the interfaces. Finally, the methods required to decompose the original CAD model using the analysis topology description and “virtual geometry curves” are presented, enabling downstream automation of the mesh.

Original language	English
Title of host publication	Proceedings of the 2022 SIAM International Meshing Roundtable
Editors	Trevor Robinson, David Moxey, Vladimir Z. Tomov
Publisher	Zenodo
Pages	49-60
Number of pages	12
ISBN (Electronic)	9781733489027
DOIs	https://doi.org/10.5281/zenodo.6562462
Publication status	Published - 19 May 2022
Event	SIAM International Meshing Roundtable Workshop 2022: 30th International Meshing Roundtable, - Online Duration: 22 Feb 2022 → 25 Feb 2022 https://internationalmeshingroundtable.com/

Publication series

Name	International Meshing Roundtable Proceedings

Conference

Conference	SIAM International Meshing Roundtable Workshop 2022
Abbreviated title	SIAM IMR22
Period	22/02/2022 → 25/02/2022
Internet address	https://internationalmeshingroundtable.com/

Keywords

mesh generation
analysis topology
virtual topology
CAD

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10.5281/zenodo.6562462Licence: CC BY

Proceedings of the 2022 SIAM International Meshing Roundtable
Copyright 2022 The Authors. This is an open access article published under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
Final published version, 93.5 MBLicence: CC BY

Cite this

Lecallard, B., Robinson, T. T., Armstrong, C. G., Nolan, D. C., & Ramesh, H. (2022). Incremental decomposition for hex-meshing in cad using virtual topology. In T. Robinson, D. Moxey, & V. Z. Tomov (Eds.), Proceedings of the 2022 SIAM International Meshing Roundtable (pp. 49-60). (International Meshing Roundtable Proceedings). Zenodo. https://doi.org/10.5281/zenodo.6562462

@inproceedings{a58ebaa2cced4907b19538dfc0ae1ab3,

title = "Incremental decomposition for hex-meshing in cad using virtual topology",

abstract = "This paper presents methods for preparing a geometry model for finite element mesh generation in a Mechanical Computer-Aided Design (MCAD) environment. It works by creating a new representation of the model through the application of virtual topology operators. The resulting “analysis topology” description is used to abstract the analysis model, enabling automated tools and experts to apply an incremental strategy to decompose the model for meshing, without modifying the original CAD model. This work also demonstrated how virtual topology enables the integration of multiple model decomposition tools to expand the capabilities of the hosting CAD environment, providing support for more meshing strategies and more freedom in how they are applied, while bridging the gap between the CAD and analysis models. Herein, the virtual topology operators used to decompose the model are checked and propagated based on the required mesh constraints to ensure the resulting mesh is conformal at the interfaces. Finally, the methods required to decompose the original CAD model using the analysis topology description and “virtual geometry curves” are presented, enabling downstream automation of the mesh.",

keywords = "mesh generation, analysis topology, virtual topology, CAD",

author = "Benoit Lecallard and Robinson, {Trevor T.} and Armstrong, {Cecil G.} and Nolan, {Declan C.} and Harsha Ramesh",

year = "2022",

month = may,

day = "19",

doi = "10.5281/zenodo.6562462",

language = "English",

series = "International Meshing Roundtable Proceedings",

publisher = "Zenodo",

pages = "49--60",

editor = "Robinson, {Trevor } and Moxey, {David } and Tomov, {Vladimir Z. }",

booktitle = "Proceedings of the 2022 SIAM International Meshing Roundtable",

note = "SIAM International Meshing Roundtable Workshop 2022 : 30th International Meshing Roundtable, , SIAM IMR22 ; Conference date: 22-02-2022 Through 25-02-2022",

url = "https://internationalmeshingroundtable.com/",

}

Lecallard, B, Robinson, TT , Armstrong, CG , Nolan, DC & Ramesh, H 2022, Incremental decomposition for hex-meshing in cad using virtual topology. in T Robinson, D Moxey & VZ Tomov (eds), Proceedings of the 2022 SIAM International Meshing Roundtable. International Meshing Roundtable Proceedings, Zenodo, pp. 49-60, SIAM International Meshing Roundtable Workshop 2022, 22/02/2022. https://doi.org/10.5281/zenodo.6562462

Incremental decomposition for hex-meshing in cad using virtual topology. / Lecallard, Benoit; Robinson, Trevor T.; Armstrong, Cecil G. et al.
Proceedings of the 2022 SIAM International Meshing Roundtable. ed. / Trevor Robinson; David Moxey; Vladimir Z. Tomov. Zenodo, 2022. p. 49-60 (International Meshing Roundtable Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Incremental decomposition for hex-meshing in cad using virtual topology

AU - Lecallard, Benoit

AU - Robinson, Trevor T.

AU - Armstrong, Cecil G.

AU - Nolan, Declan C.

AU - Ramesh, Harsha

PY - 2022/5/19

Y1 - 2022/5/19

N2 - This paper presents methods for preparing a geometry model for finite element mesh generation in a Mechanical Computer-Aided Design (MCAD) environment. It works by creating a new representation of the model through the application of virtual topology operators. The resulting “analysis topology” description is used to abstract the analysis model, enabling automated tools and experts to apply an incremental strategy to decompose the model for meshing, without modifying the original CAD model. This work also demonstrated how virtual topology enables the integration of multiple model decomposition tools to expand the capabilities of the hosting CAD environment, providing support for more meshing strategies and more freedom in how they are applied, while bridging the gap between the CAD and analysis models. Herein, the virtual topology operators used to decompose the model are checked and propagated based on the required mesh constraints to ensure the resulting mesh is conformal at the interfaces. Finally, the methods required to decompose the original CAD model using the analysis topology description and “virtual geometry curves” are presented, enabling downstream automation of the mesh.

AB - This paper presents methods for preparing a geometry model for finite element mesh generation in a Mechanical Computer-Aided Design (MCAD) environment. It works by creating a new representation of the model through the application of virtual topology operators. The resulting “analysis topology” description is used to abstract the analysis model, enabling automated tools and experts to apply an incremental strategy to decompose the model for meshing, without modifying the original CAD model. This work also demonstrated how virtual topology enables the integration of multiple model decomposition tools to expand the capabilities of the hosting CAD environment, providing support for more meshing strategies and more freedom in how they are applied, while bridging the gap between the CAD and analysis models. Herein, the virtual topology operators used to decompose the model are checked and propagated based on the required mesh constraints to ensure the resulting mesh is conformal at the interfaces. Finally, the methods required to decompose the original CAD model using the analysis topology description and “virtual geometry curves” are presented, enabling downstream automation of the mesh.

KW - mesh generation

KW - analysis topology

KW - virtual topology

KW - CAD

U2 - 10.5281/zenodo.6562462

DO - 10.5281/zenodo.6562462

M3 - Conference contribution

T3 - International Meshing Roundtable Proceedings

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EP - 60

BT - Proceedings of the 2022 SIAM International Meshing Roundtable

A2 - Robinson, Trevor

A2 - Moxey, David

A2 - Tomov, Vladimir Z.

PB - Zenodo

T2 - SIAM International Meshing Roundtable Workshop 2022

Y2 - 22 February 2022 through 25 February 2022

ER -

Incremental decomposition for hex-meshing in cad using virtual topology

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