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Engineering with Computers
Published in:

06-05-2022

Decomposition of protrusion features on thin-shell parts for mold flow analysis

Authors: Pei-Pu Song, Pradiktio Putrayudanto, Tien-Yu Wu, Jiing-Yih Lai, Yao-Chen Tsai, Ming-Hsuan Wang, Chia-Hsiang Hsu

Published in: Engineering with Computers | Issue 4/2023

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Abstract

Volume decomposition is a technique for decomposing a computer-aided design (CAD) model into subvolumes to improve the types of meshes that can be generated and enhance the accuracy of finite element analysis. Protrusions frequently occur on thin-shell CAD models for functional and structural purposes. Automatic decomposition of such features is difficult due to the complexity and variation of shapes. In this study, a method was proposed for decomposing protrusions on thin-shell CAD models. A feature recognition algorithm was first employed to recognize four types of protrusions on a boundary representation (B-rep) model: tubes, columns, ribs, and symmetric extrusions. A specific volume decomposition algorithm was then developed for each type of protrusion. A protrusion is divided into sweepable subvolumes, with each subvolume represented by a pair of main contours and several side contours that connect to both main contours simultaneously. The contours of all subvolumes are tightly adjacent to each other to preserve the entire volume of the feature. Realistic CAD models and analysis results are presented to demonstrate the feasibility of the proposed protrusion decomposition method. The integration of the proposed algorithm with the decomposition of thin shells is also discussed.
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Metadata
Title
Decomposition of protrusion features on thin-shell parts for mold flow analysis
Authors
Pei-Pu Song
Pradiktio Putrayudanto
Tien-Yu Wu
Jiing-Yih Lai
Yao-Chen Tsai
Ming-Hsuan Wang
Chia-Hsiang Hsu
Publication date
06-05-2022
Publisher
Springer London
Published in
Engineering with Computers / Issue 4/2023
Print ISSN: 0177-0667
Electronic ISSN: 1435-5663
DOI
https://doi.org/10.1007/s00366-022-01657-y

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