注塑材料和树脂层对碳纤维增强热塑性塑料 (CFRTP) 冲压和注塑混合模塑件机械性能的影响

Kazuto Tanaka, Masaki Taniguchi
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摘要

在纤维增强热塑性塑料(FRTPs)的压制和注射混合模塑部件中,表面材料(外壳)和肋条(注射部分)之间的界面或注射部分的界面失效已成为一个问题。有人建议在注塑成型肋条的同时在肋条根部添加一层树脂,这样可以提高机械性能并降低材料成本。为了防止注塑部件失效,有人建议使用纤维增强树脂作为注塑材料。这种方法通过降低成型收缩率来提高粘接强度。在本研究中,通过压制和注射混合模塑法制造了肋根部带有纤维增强树脂层和纯树脂层的碳纤维增强热塑性塑料(CFRTPs)帽形部件,并通过三点弯曲试验评估了其机械性能。通过实验和有限元分析,阐明了肋根部树脂层和纤维增强与否对力学性能的影响,以及材料成本与力学性能之间的关系。此外,还通过在肋条根部进行的拉伸试验评估了粘接强度。在肋根部使用纯 PA6 和玻璃纤维增强 PA6 树脂层的模塑件比不使用树脂层的模塑件显示出更高的粘结强度。在对肋条根部带有树脂层的 CFRTP 帽形零件进行三点弯曲试验时,使用 1 毫米厚的 CFRTP 层压板作为外壳和玻璃纤维增强 PA6 树脂作为注塑材料的零件与使用 2 毫米厚的 CFRTP 层压板作为外壳的零件显示出相同的刚度。有限元分析表明,树脂层可防止应变集中在肋条根部,在这项研究中,使用 1 毫米厚 CFRTP 层压板作为外壳、玻璃纤维增强 PA6 树脂作为注塑材料的模型显示出最佳的特定刚度。通过在肋条根部添加树脂层,只需增加少量成本,就能制造出具有出色比刚度的模塑件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of the Injection Material and Resin Layer on the Mechanical Properties of Carbon Fiber-Reinforced Thermoplastic (CFRTP) Press and Injection Hybrid Molded Parts
In the press and injection hybrid molded parts of fiber-reinforced thermoplastics (FRTPs), failure at the interface between the surface material (the outer shell) and the ribs (the injection part) or that at the injection part has become an issue. Adding a resin layer to the rib roots at the same time that the ribs are molded through injection has been proposed, which may increase the mechanical properties and reduce the material cost. To prevent failure at the injection part, the use of fiber-reinforced resin as an injection material has been suggested. This approach contributes to a higher bond strength by lowering the molding shrinkage rate. In this study, the hat-shaped parts of carbon fiber-reinforced thermoplastics (CFRTPs) with fiber-reinforced and neat resin layers at the rib root were fabricated through press and injection hybrid molding, and their mechanical properties were evaluated through three-point bending tests. The effects of the resin layer at the rib root and the existence or nonexistence of fiber reinforcement on the mechanical properties, as well as the relationship between the material cost and the mechanical properties, were clarified through an experiment and FEM analysis. The bond strength was also evaluated through tensile tests that were undertaken at the rib root. Molded parts with neat PA6 and glass fiber-reinforced PA6 resin layers at the rib roots showed higher bond strength than those without resin layers. In a three-point bending test of a CFRTP hat-shaped part with a resin layer at the rib roots, the use of a 1 mm thick CFRTP laminate for the outer shell and glass fiber-reinforced PA6 resin as the injection material showed the same stiffness as a part that used a 2 mm thick CFRTP laminate for the outer shell. FEM analysis showed that the resin layer prevented the concentration of strain at the rib roots, and the model that used a 1 mm thick CFRTP laminate for the outer shell and glass fiber-reinforced PA6 resin as the injection material showed the best specific stiffness in this study. By adding a resin layer to the rib roots, the fabrication of molded parts with excellent specific stiffness was enabled at a small increase in cost.
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