Modeling Three-Dimensional Non-Newtonian Flows in Single-Screw Extruders

  • Christian Marschik (Speaker)
  • Jürgen Miethlinger (Speaker)
  • Wolfgang Roland (Speaker)
  • Löw-Baselli, B. (Speaker)

Activity: Talk or presentationContributed talkscience-to-science

Description

Modeling the multidimensional non-Newtonian flow of shear-thinning polymer melts in single-screw extruders generally requires the use of numerical methods. We present a heuristic approach to predicting the three-dimensional, fully developed, isothermal flow of power-law fluids in single-screw extruders that avoids complex and time-consuming numerical simulations. By applying a heuristic optimization algorithm, we approximate numerical results obtained from a comprehensive parametric design study, yielding an analytical relationship for the output-pressure gradient relationship depending on four independent parameters: (i) height-to-width ratio (h/w), (ii) pitch-to-diameter ratio (t/Db), (iii) power-law index (n), and (iv) dimensionless pressure gradient in the down-channel direction (dp,z). The new approach is demonstrated to provide a close approximation to numerical solutions.
Period10 May 2017
Event titleANTEC Anaheim 2017
Event typeConference
LocationUnited StatesShow on map

Fields of science

  • 205012 Polymer processing
  • 205 Materials Engineering
  • 102009 Computer simulation
  • 205011 Polymer engineering
  • 102033 Data mining
  • 104018 Polymer chemistry
  • 104019 Polymer sciences

JKU Focus areas

  • Nano-, Bio- and Polymer-Systems: From Structure to Function
  • Engineering and Natural Sciences (in general)

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