Micro-tomography based geometry modeling of three-dimensional braided composites

Guodong Fang; Chenghua Chen; Shenggang Yuan; Songhe Meng; Jun Liang

doi:10.1007/s10443-017-9630-8

Micro-tomography based geometry modeling of three-dimensional braided composites

Guodong Fang^*, Chenghua Chen, Shenggang Yuan, Songhe Meng, Jun Liang

^*Corresponding author for this work

Institute of Advanced Structure Technology

Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

A tracking and recognizing algorithm is proposed to automatically generate irregular cross-sections and central path of braid yarn within the 3D braided composites by using sets of high resolution tomography images. Only the initial cross-sections of braid yarns in a tomography image after treatment are required to be calibrated manually as searching crosssection template. The virtual geometry of 3D braided composites including some detailed geometry information, such as the braid yarn squeezing deformation, braid yarn distortion and braid yarn path deviation etc., can be reconstructed. The reconstructed geometry model can reflect the change of braid configurations during solidification process. The geometry configurations and mechanical properties of the braided composites are analyzed by using the reconstructed geometry model.

Original language	English
Pages (from-to)	469-483
Number of pages	15
Journal	Applied Composite Materials
Volume	25
Issue number	3
DOIs	https://doi.org/10.1007/s10443-017-9630-8
Publication status	Published - 15 Aug 2017

Keywords

3D reconstruction
Automatic Identification
Geometry model
Micro-CT
Textile composites

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10.1007/s10443-017-9630-8

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title = "Micro-tomography based geometry modeling of three-dimensional braided composites",

abstract = "A tracking and recognizing algorithm is proposed to automatically generate irregular cross-sections and central path of braid yarn within the 3D braided composites by using sets of high resolution tomography images. Only the initial cross-sections of braid yarns in a tomography image after treatment are required to be calibrated manually as searching crosssection template. The virtual geometry of 3D braided composites including some detailed geometry information, such as the braid yarn squeezing deformation, braid yarn distortion and braid yarn path deviation etc., can be reconstructed. The reconstructed geometry model can reflect the change of braid configurations during solidification process. The geometry configurations and mechanical properties of the braided composites are analyzed by using the reconstructed geometry model.",

keywords = "3D reconstruction, Automatic Identification, Geometry model, Micro-CT, Textile composites",

author = "Guodong Fang and Chenghua Chen and Shenggang Yuan and Songhe Meng and Jun Liang",

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T1 - Micro-tomography based geometry modeling of three-dimensional braided composites

AU - Fang, Guodong

AU - Chen, Chenghua

AU - Yuan, Shenggang

AU - Meng, Songhe

AU - Liang, Jun

N1 - Publisher Copyright: © Springer Science+Business Media B.V. 2017.

PY - 2017/8/15

Y1 - 2017/8/15

N2 - A tracking and recognizing algorithm is proposed to automatically generate irregular cross-sections and central path of braid yarn within the 3D braided composites by using sets of high resolution tomography images. Only the initial cross-sections of braid yarns in a tomography image after treatment are required to be calibrated manually as searching crosssection template. The virtual geometry of 3D braided composites including some detailed geometry information, such as the braid yarn squeezing deformation, braid yarn distortion and braid yarn path deviation etc., can be reconstructed. The reconstructed geometry model can reflect the change of braid configurations during solidification process. The geometry configurations and mechanical properties of the braided composites are analyzed by using the reconstructed geometry model.

AB - A tracking and recognizing algorithm is proposed to automatically generate irregular cross-sections and central path of braid yarn within the 3D braided composites by using sets of high resolution tomography images. Only the initial cross-sections of braid yarns in a tomography image after treatment are required to be calibrated manually as searching crosssection template. The virtual geometry of 3D braided composites including some detailed geometry information, such as the braid yarn squeezing deformation, braid yarn distortion and braid yarn path deviation etc., can be reconstructed. The reconstructed geometry model can reflect the change of braid configurations during solidification process. The geometry configurations and mechanical properties of the braided composites are analyzed by using the reconstructed geometry model.

KW - 3D reconstruction

KW - Automatic Identification

KW - Geometry model

KW - Micro-CT

KW - Textile composites

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Micro-tomography based geometry modeling of three-dimensional braided composites

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Keywords

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