Akademik Veri Yönetim Sistemi
INDUSTRIA TEXTILA, cilt.76, sa.6, ss.883-890, 2025 (SCI-Expanded, Scopus)
Especially for the construction and transportation sectors, layered composites are important in terms of heat and sound insulation, energy saving and cost reduction. This study aims to investigate the heat and sound insulation properties of textile-reinforced, layered designed hybrid composite materials. In the study, textile reinforcement is fabric, and high-performance fabrics such as basalt fabric, aramid and carbon are the main components of the layered design. The matrix component is epoxy. The hybrid composite manufacturing method is the combined use of hand lay-up and vacuum infusion methods. The layers are 3 and 2 layers, and a total of 6 samples were produced according to the test plan. In thermal insulation, the lowest heat transfer coefficient and in sound insulation, the highest sound transfer loss are taken into account. At the end of the study, the lowest heat transfer coefficient was obtained as 0.0341 W/mK in the Aramid/Basalt composite sample and 16 dB for sound transmission loss in the Carbon/Aramid/Basalt composite sample. In cases where insulation is not desired in heat conduction, the best composite plate is the Carbon/Aramid/Basalt hybrid composite, which has the highest heat conduction value, with a value of 0.0514 W/mK