Experimental investigation and numerical simulation of injection molding with micro-features

Liyong Yu, Chee Guan Koh, L. James Lee, Kurt W. Koelling, Marc J. Madou

Research output: Contribution to journalArticlepeer-review

169 Scopus citations

Abstract

Injection molding of thin plates of micro sized features was studied in order to manufacture micro-fluidic devices for bioMEMS applications. Various types of mold inserts - CNC-machined steel, epoxy photoresist, and photolithography and electroplating produced nickel molds - were fabricated and tested in injection molding. The feature size covers a range of 5 microns to several hundred microns. Issues such as surface roughness and sidewall draft angle of the mold insert were considered. Two optically clear thermoplastics, PMMA and optical quality polycarbonate, were processed at different mold and melt temperatures, injection speeds, shot sizes, and holding pressures. It was found that the injection speed and mo temperature in injection molding greatly affect the replication accuracy of microstructures on the metal mold inserts. The UV-LIGA produced nickel mold with positive draft angles enabled successful demolding. Numerical simulation based on the 2D software C-MOLD was performed on two types of cavity fillings: the radial flow and the unidirectional flow. The simulation and experimental data were compared, showing correct qualitative predictions but discrepancies in the flow front profile and filled depth.

Original languageEnglish
Pages (from-to)871-888
Number of pages18
JournalPolymer Engineering and Science
Volume42
Issue number5
DOIs
StatePublished - May 2002

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