LAUSR

ABSTRACT It is generally believed that the residual fibre length is one of the most important factors influencing on the mechanical properties of fibre-reinforced polymer matrix composites. In this study, long-glass fibre-reinforced polypropylene (LGFRPP) with initial fibre lengths of 12 mm was prepared and then moulded into parts via conventional injection moulding (CIM) and foamed injection moulding (FIM). The design of experiment (DOE) based on the Taguchi method was first used to determine the optimised processing conditions to increase the residual fibre length of the LGFRPP. The results indicated that foaming conditions have a substantial influence on the residual fibre length of the foamed samples. Based on the DOE, a set of optimised processing condition was selected, and two representative samples of CIM and FIM were carefully investigated using dynamical mechanical analysis, scanning electron microscopy, optical microscopy, etc. The experimental results further showed that the residual fibre length and the mechanical properties of the LGFRPP FIM components were better than those of the CIM components. It was also determined that there is a close relationship between the fibre breakage and the mechanical performance. GRAPHICAL ABSTRACT