Material flow data for numerical simulation of powder injection molding

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Material flow data for numerical simulation of powder injection molding. / Duretek, Ivica; Holzer, Clemens.
In: Universal Journal of Materials Science, Vol. 5.2017, No. 1, 2017, p. 7-14.

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@article{5f76798844d34291a02e18c2c577df47,
title = "Material flow data for numerical simulation of powder injection molding",
abstract = "The powder injection molding (PIM) process is a cost efficient and important net-shape manufacturing process that is not completely understood. For the application of simulation programs for the powder injection molding process, apart from suitable physical models, exact material data and in particular knowledge of the flow behavior are essential in order to get precise numerical results. In this work, the flow behavior of a 316L stainless steel feedstock for powder injection molding was investigated. Additionally, the influence of pre-shearing on the flow behavior of PIM-feedstocks under practical conditions was examined and evaluated by a special PIM injection molding machine rheometer. In order to have a better understanding of key factors of PIM during the injection step, 3D non-isothermal numerical simulations were conducted with a commercial injection molding simulation software using experimental feedstock properties. The simulation results were compared with the experimental results. The mold filling studies amply illustrate the effect of mold temperature on the filling behavior during the mold filling stage. Moreover, the rheological measurements showed that at low shear rates no zero shear viscosity was observed, but instead the viscosity further increased strongly. This flow behavior could be described with the Cross-WLF approach with Herschel-Bulkley extension very well.",
keywords = "Viscosity, Rheology, Powder Injection Molding, Simulation, 316L",
author = "Ivica Duretek and Clemens Holzer",
year = "2017",
doi = "10.13189/ujms.2017.050102",
language = "English",
volume = "5.2017",
pages = "7--14",
journal = "Universal Journal of Materials Science",
issn = "2331-6705",
number = "1",

}

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TY - JOUR

T1 - Material flow data for numerical simulation of powder injection molding

AU - Duretek, Ivica

AU - Holzer, Clemens

PY - 2017

Y1 - 2017

N2 - The powder injection molding (PIM) process is a cost efficient and important net-shape manufacturing process that is not completely understood. For the application of simulation programs for the powder injection molding process, apart from suitable physical models, exact material data and in particular knowledge of the flow behavior are essential in order to get precise numerical results. In this work, the flow behavior of a 316L stainless steel feedstock for powder injection molding was investigated. Additionally, the influence of pre-shearing on the flow behavior of PIM-feedstocks under practical conditions was examined and evaluated by a special PIM injection molding machine rheometer. In order to have a better understanding of key factors of PIM during the injection step, 3D non-isothermal numerical simulations were conducted with a commercial injection molding simulation software using experimental feedstock properties. The simulation results were compared with the experimental results. The mold filling studies amply illustrate the effect of mold temperature on the filling behavior during the mold filling stage. Moreover, the rheological measurements showed that at low shear rates no zero shear viscosity was observed, but instead the viscosity further increased strongly. This flow behavior could be described with the Cross-WLF approach with Herschel-Bulkley extension very well.

AB - The powder injection molding (PIM) process is a cost efficient and important net-shape manufacturing process that is not completely understood. For the application of simulation programs for the powder injection molding process, apart from suitable physical models, exact material data and in particular knowledge of the flow behavior are essential in order to get precise numerical results. In this work, the flow behavior of a 316L stainless steel feedstock for powder injection molding was investigated. Additionally, the influence of pre-shearing on the flow behavior of PIM-feedstocks under practical conditions was examined and evaluated by a special PIM injection molding machine rheometer. In order to have a better understanding of key factors of PIM during the injection step, 3D non-isothermal numerical simulations were conducted with a commercial injection molding simulation software using experimental feedstock properties. The simulation results were compared with the experimental results. The mold filling studies amply illustrate the effect of mold temperature on the filling behavior during the mold filling stage. Moreover, the rheological measurements showed that at low shear rates no zero shear viscosity was observed, but instead the viscosity further increased strongly. This flow behavior could be described with the Cross-WLF approach with Herschel-Bulkley extension very well.

KW - Viscosity

KW - Rheology

KW - Powder Injection Molding

KW - Simulation

KW - 316L

U2 - 10.13189/ujms.2017.050102

DO - 10.13189/ujms.2017.050102

M3 - Article

VL - 5.2017

SP - 7

EP - 14

JO - Universal Journal of Materials Science

JF - Universal Journal of Materials Science

SN - 2331-6705

IS - 1

ER -