Abstract
The easiest and most reliable joining method is the mechanical joint with a bolt and nut or rivet. However, in the case of composite laminates, mechanical joint properties decrease because of lower interlaminar properties compared to in-plane properties around hole. This study investigated needle punching process with the aim of improving the mechanical properties in the thickness direction of fiber-reinforced plastic composite laminates with an open hole. Needle punching process was applied to glass fiber chopped strand matused as the reinforcement for the composite laminates. Open-hole tensile tests and observations of end cross-sections after the tests were performed. The tensile properties and fracture mechanism of the specimens subjected to needle punching process were investigated. In addition, characteristic distance (a parameter for evaluating resistance to fracture in open-hole tensile test specimens) was also calculated to examine the effects of needle punching process conditions on fracture toughness. Tensile strength was improved by more than 15% by needle punching process. However, when a certain needle punching density was exceeded, the mechanical properties worsened. In addition, characteristic distance increased with increasing needle punching density. Thus, these results suggest that there is an optimal needle punching density with respect to strength and characteristic distance.
Highlights
Compared to the previous research results, it was found that the needle punching glass chopped strand mat (NCM) composites fabricated in this study had similar increases in tensile strength due to needle punching process, and the trends differed according to needle punching density
The amount of fibers oriented in the in-plane direction decreased and the reinforcing fibers became shorter with increasing needle punching density, and the number of transverse cracks increased as the dispersion of fibers and the number of fiber bundles in the thickness direction increased
This study investigated the effect of needle punching process conditions on the tensile properties and fracture propagation behavior of composite laminates with a hole
Summary
Needle punching process is a fabric processing method that is used to create non-woven fabric and is able to create interlacing of fabrics in the thickness direction by piercing cottony fiber with special barbed needles called felting needles When this technique is used to strengthen composite materials, it is thought to improve the interlaminar characteristics of stacked layer materials by causing fibers to be oriented in the thickness direction, and to suppress delamination due to stress concentration around holes. Another study has investigated the mechanical properties of composite using non-woven fabrics and woven fabrics made from glass fiber with application of needle punching process [11]. Evaluations were performed using characteristic distance to investigate the effect of changing needle punching process conditions on the ease of fracture when a hole is present in the specimen.
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