INVESTIGADORES
FRONTINI patricia Maria
artículos
Título:
Development of the layered structure in a double-gated glass fiber-reinforced polypropylene injection molding: Experimental and simulated results
Autor/es:
QUINTANA, M.C.; FRONTINI, M.P.
Revista:
JOURNAL OF REINFORCED PLASTICS AND COMPOSITES
Editorial:
SAGE PUBLICATIONS LTD
Referencias:
Año: 2018 vol. 37 p. 945 - 959
ISSN:
0731-6844
Resumen:
The present study aims to experimentally validate numerical simulation of fiber orientation distribution performed by molding simulation software Moldex3D in a double-gated injection-molded glass fiber-filled (40 wt%) polypropylene box, by making a detailed comparison of predicted and experimentally measured fiber orientation distribution data. The modeling approach evaluated in this work consists in the implementation of the Folgar?Tucker rotary diffusion model with the invariant-based optimal fitting closure approximation for the fourth-order orientation tensor. The specimen used has a weld line in the center and sharp corners. This investigation characterizes in detail the development of the through-thickness layered structure at distinctive locations of the specimen. The sensitivity of fiber orientation distribution and the layered structure to changes upon injection time and melt temperature is also evaluated. The boxes display the typical layered laminate structure, with fibers aligned in the main flow direction near the walls (shell layer) and less oriented in the middle plane (core layer). The boxes injected at the lowest melt temperature display an additional skin layer. Unfortunately, simulation fails in predicting the five layers structure developed under these latter conditions. The grade of fiber orientation is deemed to be independent of process parameters but not the layered structure.