An optimization method with experimental validation for the design of extrusion wire coating dies for a range of different materials and operating conditions

The objective of this article is to determine a wire coating‐hanger melt distributor geometry to ensure a homogenous exit velocity distribution that will best accommodate a wide material range and multiple operating conditions (i.e., die wall temperature and flow rate change). The computational appr...

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Bibliographic Details
Published inPolymer engineering and science Vol. 52; no. 12; pp. 2675 - 2687
Main Authors Lebaal, N., Puissant, S., Schmidt, F.M., Schläfli, D.
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.12.2012
Wiley
Society of Plastics Engineers, Inc
Blackwell Publishing Ltd
Wiley-Blackwell
Subjects
Applied sciences
Comparative analysis
Engineering design
Engineering Sciences
Exact sciences and technology
Finite element analysis
Mathematical optimization
Mechanical engineering
Mechanics
Methods
Optimization algorithms
Physicochemistry of polymers
Polymer industry, paints, wood
Quadratic programming
Taguchi methods
Technology of polymers
Switzerland
Finite element method
Polymer
Coating material
Extrusion die
Optimization
Taguchi method
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Summary:The objective of this article is to determine a wire coating‐hanger melt distributor geometry to ensure a homogenous exit velocity distribution that will best accommodate a wide material range and multiple operating conditions (i.e., die wall temperature and flow rate change). The computational approach incorporates finite element (FE) analysis to evaluate the performance of a die design and includes a nonlinear constrained optimization algorithm based on the Kriging interpolation and sequential quadratic programming algorithm to update the die geometry. Two optimization problems are then solved, and the best solution is taken into account to manufacture the optimal distributor. The Taguchi method is used to investigate the effect of the operating conditions, i.e., melt and die wall temperature, flow rate and material change, on the velocity distribution for the optimal die. In the example chosen, the wire coating die geometry is optimized by taking into account the geometrical limitations imposed by the tool geometry. Finally, the FE analysis and optimization results are validated by comparison with the experimental data obtained with the optimal die. The purpose of the experiments described below is to investigate the effect of material change. POLYM. ENG. SCI., 2012. © 2012 Society of Plastics Engineers
Bibliography:ark:/67375/WNG-XT46G3HZ-K
ArticleID:PEN23203
istex:000D0E8ECB35EFAFD3B728731D7ABC4CD8718198
ISSN:0032-3888
1548-2634
DOI:10.1002/pen.23203