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Optical Monitoring of Polypropylene Injection Molding

Published

Author(s)

C L. Thomas, Anthony J. Bur

Abstract

We have constructed an optical fiber sensor for monitoring injection molding and we have developed a model to describe sensor behavior. The sensor consists of a sapphire window at the end of a sleeved ejector pin into which an optical fiber is inserted. The optical view with this sensor is through the thickness of the molded product. The measured optical signal was light which transmitted through the resin, reflected off the back wall of the mold and retraced its path through the resin to the optical sensor, I.e. light transmitted through twice the thickness of the resin. While monitoring polypropylene during the packing and cooling phase of the molding cycle, we observed a decrease in light intensity due to scattering of light by the growing microcrystals. A characteristic minimum in the transmitted light intensity versus time curve is attributed to scattering by growing crystalline spherulites at the core of the molded product. Cavity pressure was also measured and was found to be an essential parameter in the process model. The model illustrates how temperature, pressure and crystallinity affect the detected light intensity and clarifies the roles which temperature and pressure play in the crystallization process.
Citation
Polymer Engineering and Science
Volume
39

Keywords

light transmission, optical sensor, polymer injection molding, polypropylene, process modeling

Citation

Thomas, C. and Bur, A. (1999), Optical Monitoring of Polypropylene Injection Molding, Polymer Engineering and Science, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=852837 (Accessed April 14, 2024)
Created December 31, 1998, Updated October 12, 2021