存在缺陷的碳-芳纶纤维/环氧树脂混合复合材料层压板:实验研究

H Junaedi and T A Sebaey
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摘要

碳-芳纶纤维增强环氧树脂已广泛应用于航空航天和汽车行业。高强度碳纤维和高韧性芳纶纤维的结合被认为有利于复合材料的结构行为。在当前的研究中,芳纶纤维被夹在碳纤维层之间,以同时保持高强度和高韧性。研究了存在开孔和单边缺口的层压板的行为。为了说明理由,将混合层压板的响应与另外两种层压板进行了比较,一种是完全由碳纤维增强环氧树脂(CFRP)制成的,另一种是由芳纶纤维增强环氧树脂(AFRP)制成的。拉伸试验评估了开孔的影响,而弯曲试验则评估了单边缺口的影响。此外,还对普通样品进行了拉伸和弯曲试验。根据目前的结果,混合层压材料的缺口敏感性低于 CFRP 层压材料。CFRP 层压材料的失效类型主要是分层。AFRP 复合材料层压板的失效主要是纤维断裂和裂纹在基体中扩展。混合复合材料层压板主要是 AFRP 层压板的纤维断裂和 CFRP 外层的分层。混合层压板的弯曲模量值最大,其次是 CFRP 和 AFRP。混合层压板的断裂韧性明显高于 CFRP,但低于 AFRP。
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Carbon-Aramid Fiber/Epoxy Hybrid Composite Laminates with the Presence of Defect: An Experimental Study
Carbon-Aramid fiber-reinforced epoxy has been used extensively in the aerospace and automobile industries. The combination of high-strength carbon fiber and the high toughness of aramid fiber is believed to be beneficial to the structural behavior of composites. In the current study, Aramid fiber was sandwiched between carbon fiber layers to maintain high strength and toughness simultaneously. The behavior of the laminate with the presence of an open hole and single-edge notch was investigated. For justification, the response of the hybrid laminate was compared with two other laminates, one is made totally from carbon fiber-reinforced epoxy (CFRP) and the other is made from aramid fiber-reinforced epoxy (AFRP). The effect of an open hole was assessed by a tension test, while the single-edge notch effect was evaluated by the flexural test. Tensile and flexural tests were also performed on the regular samples. As per the current results, the notch sensitivity of hybrid laminate was found to be less than that of CFRP laminate. The CFRP laminate failure type was dominated by delamination. AFRP composite laminate failure was dominated by fiber breakage and crack propagation through the matrix. The hybrid composite laminates were dominated by fiber breakage of the AFRP laminates and delamination of CFRP outer layers. The flexural modulus of hybrid laminate resulted in the greatest value, followed by CFRP and AFRP. The hybrid laminate’s fracture toughness is significantly higher than that of CFRP but lower than that of AFRP.
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