Dynamics of semi‐flexible and breakable fibers under Poiseuille flow

In the processing of fiber‐reinforced polymer composites, especially in injection molding, the fiber's orientation, length, and distribution vary depending on the location of the channel flow and its properties, which affects the performance of final products. To investigate the intricate behav...

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Veröffentlicht in:	Polymer engineering and science 2023-03, Vol.63 (3), p.1032-1040
Hauptverfasser:	Choi, Kisuk, Lee, Jaebin, Choi, Woo Jin, Myung, Jin Suk
Format:	Artikel
Sprache:	eng
Schlagworte:	Channel flow Collision dynamics computational modeling Engineering models fiber deformation Fibers Flow velocity Injection molding Laminar flow Molecular dynamics Orientation Polymer matrix composites transport phenomena analysis
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creator	Choi, Kisuk Lee, Jaebin Choi, Woo Jin Myung, Jin Suk
description	In the processing of fiber‐reinforced polymer composites, especially in injection molding, the fiber's orientation, length, and distribution vary depending on the location of the channel flow and its properties, which affects the performance of final products. To investigate the intricate behavior of fiber suspensions under Poiseuille flow, we used the hybrid simulation approach, multiparticle collision dynamics–molecular dynamics (MPC‐MD), which takes hydrodynamic interactions and fiber properties (strength, flexibility) into account. For non‐breakable and rodlike fibers, fibers align well along the flow direction while showing more alignment near the wall. As fiber becomes breakable and/or flexible, the length and orientation of fibers strongly depend on their properties. The interesting phenomenon is specifically seen for breakable and semiflexible fibers, where the orientation of the fiber exhibits non‐monotonic behavior depending on the flow rate. This complex behavior highlights the importance of comprehending the dynamics of many types of fibers and necessitates research into the best conditions for injection molding. The effect of fiber properties (strength, flexibility) on the flow behavior of fiber suspensions is studied by mesoscale hydrodynamic simulations. The fiber exhibits non‐monotonic behavior depending on the flow rate for breakable and semiflexible fibers.
doi_str_mv	10.1002/pen.26263
format	Article
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source	Wiley Online Library Journals Frontfile Complete
subjects	Channel flow Collision dynamics computational modeling Engineering models fiber deformation Fibers Flow velocity Injection molding Laminar flow Molecular dynamics Orientation Polymer matrix composites transport phenomena analysis
title	Dynamics of semi‐flexible and breakable fibers under Poiseuille flow
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