This paper presents an experimental-modeling approach to predict the elastic properties of long-fiber injection-molded thermoplastics (LFTs). The approach accounts for fiber length and orientation distributions in LFTs. LFT samples were injection-molded for the study, and fiber length and orientation distributions were measured at different locations for use in the computation of the composite properties. The current fiber orientation model was assessed to determine its capability to predict fiber orientation in LFTs. Predicted fiber orientations for the studied LFT samples were also used in the calculation of the elastic properties of these samples, and the predicted overall moduli were then compared with the experimental results. The elastic property prediction was based on the Eshelby-Mori-Tanaka method combined with the orientation averaging technique. The predictions reasonably agree with the experimental LFT data
Revised: July 30, 2009 |
Published: September 13, 2007
Citation
Nguyen B.N., V. Kunc, B.J. Frame, J. Phelps, C.L. Tucker III, S.K. Bapanapalli, and J.D. Holbery, et al. 2007.From Process Modeling to Elastic Property Prediction for Long-Fiber Injection-Molded Thermoplastics. In Proceedings of the 7th Annual SPE Automotive Composites Conference & Exposition (ACCE). Detroit, Michigan:Society of Plastics Engineers.PNNL-SA-56197.