Evaluation of Mixing Performance in Baffled Screw Channel Using Lagrangian Particle Calculations

Xu, B.; Yu, Huiwen; Kuang, Tangqing; Turng, Lih‐Sheng

doi:10.1002/adv.21577

Cited by 3 publications

(1 citation statement)

References 33 publications

(47 reference statements)

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“…Through inserting a periodic barrier element into the screw, the steady flow field is disturbed, and chaotic flow is generated in the channel, thereby improving the efficiency of mixing and melting. Furthermore, Xu et al [ 10 ] studied the influence of geometric ratio and height of baffles on the chaotic mixing and achieved an optimal geometric ratio. Zeng and Qu [ 11 ] introduced the vibration to obtain chaos control in the melting process of polymer.…”

Section: Introductionmentioning

confidence: 99%

Design and Ductile Behavior of Torsion Configurations in Material Extrusion to Enhance Plasticizing and Melting

et al. 2021

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In the present work, the ductile formation mechanism of a newly proposed torsion configuration has been investigated. One of the unique attributes of this paper is the first-time disclosure of the design and fabrication of a novel prototype screw with torsional flow character validating the orthogonal test model experimentally. The torsional spiral flow patterns that occurred in the torsion channel cause a ductile deformation of polymer in the form of a spiral, which in turn enhances the radial convection, achieving an effective mass transfer of material from the top region to the bottom region and vice versa. Furthermore, the characteristic parameters of torsion configuration have a significant influence on the plasticizing and melting capability of polymer. By range analysis and weight matrix analysis, the best factor and level combination was obtained. Results indicated that the aspect ratio of the torsion channel is almost equal to 1, and the plasticizing and melting capability of polymer is optimal. This novel design innovation offers a paradigm shift in the energy-efficient plasticization of polymer compounds.

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Section: Introductionmentioning

confidence: 99%

Design and Ductile Behavior of Torsion Configurations in Material Extrusion to Enhance Plasticizing and Melting

et al. 2021

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Detecting mixing barriers in Twin-Screw extruder elements via Lagrangian Coherent Structures

Bauer

Khinast

2022

Chemical Engineering Science

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Enhancing dynamic mixing and heat transfer of polymer by inducing ductile flow applying field synergy principle

Jian,

Pan,

Huang

et al. 2024

Physics of Fluids

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An innovative and effective approach for screw design and optimization has been proposed, derived from multi-field synergy to address a growing challenge affected by the inadequate mixing and thermal management in plasticizing process of extrusion or injection. Dimensionless field synergy equations for incompressible non-Newtonian viscous polymers were established, and subsequently, two new types of screw structures—field synergy torsion element (FST) and field synergy elongation element (FSE)—were designed, fabricated, and validated through both simulation and experiment. Spiral and elongational flows were established in the newly designed screws owing to their unique structures of torsion channel and convergent channel, promoting the shear and stretch ductile deformations of polymer melt, documented to be a meaningful progress on flow patterns generated by conventional screw. A comparative investigation in this work of the newly designed screw with a conventional one showed that the newly proposed screws equipped with FSTs or FSEs performed better mixing and improved heat transfer and thermal uniformity. Multi-field synergy analysis revealed that the spiral and elongational flow enhanced the radial convection, improved the dependence of velocity and velocity gradient fields to facilitate melt stretching deformation as well as the dependence of velocity and temperature gradient fields to achieve heat transfer enhancement.

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Evaluation of Mixing Performance in Baffled Screw Channel Using Lagrangian Particle Calculations

Cited by 3 publications

References 33 publications

Design and Ductile Behavior of Torsion Configurations in Material Extrusion to Enhance Plasticizing and Melting

Design and Ductile Behavior of Torsion Configurations in Material Extrusion to Enhance Plasticizing and Melting

Detecting mixing barriers in Twin-Screw extruder elements via Lagrangian Coherent Structures

Enhancing dynamic mixing and heat transfer of polymer by inducing ductile flow applying field synergy principle

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