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Polymer Bulletin

Erschienen in:

01.03.2017 | Original Paper

Numerical investigation of three-dimensional fiber suspension flow by using finite volume method

verfasst von: Yue Mu, Guoqun Zhao, Anbiao Chen, Yifan Liu, Yining Song, Chao Sun

Erschienen in: Polymer Bulletin | Ausgabe 11/2017

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Abstract

Fiber suspension flow is common in many industrial processes like papermaking and fiber-reinforcing polymer-based material forming. The investigation of the mechanism of fiber suspension flow is of significant importance, since the orientation distribution of fibers directly influences the mechanical and physical properties of the final products. A numerical methodology based on the finite volume method is presented in the study to simulate three-dimensional fiber suspension flow within complex flow field. The evolution of fiber orientation is described using different formulations including FT model and RSC model. The pressure implicit with splitting of operators algorithm is adopted to avoid oscillations in the calculation. A laminate structure of fiber orientation including the shell layer, the transition layer and the core layer along radial direction within a center-gated disk flow channel is predicted through a three-dimensional simulation, which agrees well with Mazahir’s experimental results. The evolution of fiber orientation during the filling process within the complex flow field is further discussed. The mathematical model and numerical method proposed in the study can be successfully adopted to predict fiber suspension flow patterns and hence to reveal the fiber orientation mechanism.

Vorheriger Artikel Polyacrylamide-grafted legume starch for wastewater treatment: synthesis and performance comparison

Nächster Artikel Poly(1,4-butadiene)-graft-poly(L-lactide) via the grafting-from strategy

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Titel: Numerical investigation of three-dimensional fiber suspension flow by using finite volume method
verfasst von: Yue Mu
Guoqun Zhao
Anbiao Chen
Yifan Liu
Yining Song
Chao Sun
Publikationsdatum: 01.03.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Polymer Bulletin / Ausgabe 11/2017
Print ISSN: 0170-0839
Elektronische ISSN: 1436-2449
DOI: https://doi.org/10.1007/s00289-017-1960-z

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