Abstract
Metal injection molding (MIM) is a technology used to produce small metal parts with complex geometries. MIM consists of (i) preparing a highly-filled feedstock of polymeric binder with metallic particles, (ii) shaping the feedstock by injection molding, (iii) removing the polymeric binder, and finally (iv) sintering the metallic particles to obtain a solid part. When developing new feedstock materials, it is important to understand the behavior of polymers close to a metallic interface, since the behavior of materials at the molecular scale strongly affects the properties of the feedstock at the macroscale. For example, the binder should have sufficient affinity to the metallic particles to prevent their agglomeration during the shaping process and prevent excessive geometrical distortion during the debinding process. One way to study the interfacial interaction is to use atomistic molecular dynamics (MD) simulations.
In this work, MD simulations were used to study the interactions and conformational characteristics of confined molten polypropylene (PP) chains between ferric oxide (Fe2O3) substrates. PP can be readily used as one of the main components of binder systems in MIM and Fe2O3 layers are always present on the surface of stainless steel powders. The simulations revealed that PP has a strong adsorption of chains on the surface of Fe2O3, since the local density of PP chains is higher closer to the interface. Moreover, the backbone carbon- carbon bonds of the chains preferably orient in the direction parallel to the oxide surface. The results confirm the applicability of PP as a backbone component in a MIM feedstock containing ferritic materials due to their good affinity.
In this work, MD simulations were used to study the interactions and conformational characteristics of confined molten polypropylene (PP) chains between ferric oxide (Fe2O3) substrates. PP can be readily used as one of the main components of binder systems in MIM and Fe2O3 layers are always present on the surface of stainless steel powders. The simulations revealed that PP has a strong adsorption of chains on the surface of Fe2O3, since the local density of PP chains is higher closer to the interface. Moreover, the backbone carbon- carbon bonds of the chains preferably orient in the direction parallel to the oxide surface. The results confirm the applicability of PP as a backbone component in a MIM feedstock containing ferritic materials due to their good affinity.
Original language | English |
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Title of host publication | CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies |
Editors | Ales Hancic, Janez Grum |
Place of Publication | Ljubljana, Slovenia |
Publisher | TECOS – Slovenian Tool and Die Development Center |
Number of pages | 1 |
Volume | 10 |
ISBN (Electronic) | 978-961-6692-04-5 |
Publication status | Published - 24 Apr 2017 |
Event | International Conference on Industrial Tools and Advance Processing Technologies - Grand Hotel Union, Ljubljana, Slovenia Duration: 24 Apr 2017 → 26 Apr 2017 Conference number: 11 http://www.tecos.si/icit/ |
Conference
Conference | International Conference on Industrial Tools and Advance Processing Technologies |
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Abbreviated title | ICIT-APT 2017 |
Country/Territory | Slovenia |
City | Ljubljana |
Period | 24/04/17 → 26/04/17 |
Internet address |
Keywords
- molecular dynamics
- metal injection molding
- metal oxides
- Polymer