INVESTIGATION OF PERFORMANCE CHARACTERISTICS OF CARBON, GLASS, BASALT HYBRID WOVEN FABRICS

抗弯强度 玄武岩纤维 极限抗拉强度 玄武岩 复合材料 环氧树脂 材料科学 平纹织物 纱线 碳纤维 玻璃纤维 三点弯曲试验 纤维 地质学 复合数 地球化学
作者
Aslıhan Tugan,Güngör Durur,Barış Hasçelik
出处
期刊:Tekstil ve mühendis [UCTEA Chamber of Textile Engineers]
卷期号:32 (138): 116-127
标识
DOI:10.7216/teksmuh.1578575
摘要

Hybrid textile composites reinforced with carbon, glass, and basalt fibers have gained significant attention due to their superior mechanical properties and lightweight nature. This study investigates the tensile and flexural behavior of hybrid composites produced using different fiber combinations. Basalt yarn (17 μm, 1200 tex) was used as the warp yarn in all samples, while 3K carbon, 12K carbon, E-glass (300 tex), and basalt (1200 tex, 17 μm) were used as weft yarns. The fabrics were woven in a plain weave structure and reinforced with an epoxy matrix using the hand lay-up method. Tensile and three-point flexural tests were conducted to evaluate the mechanical performance of the composites. The results showed that the glass/basalt hybrid composite exhibited the highest tensile strength in the warp direction, reaching 550 MPa, and the highest flexural strength at 740,4 MPa. In the weft direction, the 12K carbon/basalt hybrid composite achieved the highest tensile strength of 252 MPa, whereas the basalt/basalt composite had the highest flexural strength of 144 MPa. These findings indicate that fiber hybridization significantly affects the mechanical properties of composite materials, making them suitable for various engineering applications.

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