Impact Improvement of Tape Carbon Fiber Composite Modified by Submicron Glass Fiber

N. Nguyen, Naoto Miyakita, O. Kiyotaka, Okubo Kazuya
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引用次数: 1

Abstract

It is well known that thermoplastic composite is vulnerable to impact fracture. Submicron glass fiber (sGF) was used to modify the matrix of chopped tape carbon fiber reinforced polypropylene composite. The impact resistance improved 20% and 7.4% coressponding to the dimeter sGF of 0.28 and 0.69 µm used in modified-composite. To shed light upon the mechanism of this improvement, the internal damage statement of post-impact specimens was observed by the CT scanner. The results pointed out that the increase of the impact resistance was due to the enlargement of delamination area under impact load. The micro droplet test and end notch flexure test suggest that the decrease of Mode II fracture toughness in modified-composite comes from narrowing the difference between the interfacial shear strength (IFSS) and the bending strength of matrix thanks to significant improving of IFSS with the addition of sGF while the flexural strength remains the unchanged. Consequently, the failure mode changed from debonding fiber/matrix in unmodified composite into brittle matrix failure in modified composite, resulting in the decrease of the Mode II interlaminar fracture toughness and the enlargement of delamination area. The stress transfer test also indicates that the modified composites is prone to the brittle matrix failure.
亚微米玻璃纤维改性带碳纤维复合材料抗冲击性能的改善
众所周知,热塑性复合材料容易发生冲击断裂。采用亚微米玻璃纤维(sGF)改性短切带碳纤维增强聚丙烯复合材料基体。当sGF直径分别为0.28和0.69 μ m时,复合材料的抗冲击性能分别提高了20%和7.4%。为了阐明这种改善的机制,通过CT扫描仪观察了撞击后试件的内部损伤状态。结果表明:冲击载荷作用下,复合材料抗冲击性能的提高主要是由于分层面积的扩大。微液滴试验和端缺口弯曲试验表明,改性复合材料II型断裂韧性的降低源于sGF的加入显著提高了界面抗剪强度(IFSS)和基体抗弯强度之间的差异,而抗弯强度保持不变。因此,由未改性复合材料的纤维/基体脱粘破坏模式转变为改性复合材料的脆性基体破坏模式,导致II型层间断裂韧性降低,分层面积增大。应力传递试验也表明,改性复合材料易发生脆性基体破坏。
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